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References
I. Pourbaix, M.: Alias of Eleclrochemical Equilibria in Aqueous Solutions, 2nd ed., National Association of Corrosion Engineers, Houston, pp. 406-413,1974.
2. Nevison, D. C. H.: Corrosion of zinc, in ASM Mewls Handbook, 9th ed., Vol. 13, 755-769, ASM International, Materials Park, Ohio, 1987.
3. Kannangara, D. C. W., and Conway, B. E.: Zinc oxidation and redeposition processes in aqueous alkali and carbonate solutions, 1. Electrochem. Soc. 134,894-918,1987.
4. Mattsson, E.: The atmospheric corrosion properties of some common structural metals-a comparative study, Mater. Peiform. 21,9-19,1982.
5. Frydrych, D. 1.: Corrosion mechanisms of zinc-rich organic coatings on steel, Ph. D. Thesis, University of Pennsylvania, 1986.
6. Kita, H.: Periodic variation of exchange current density of hydrogen electrode reaction with atomic number and reaction mechanism, 1. Electrochem. Soc. 113, 1095-1111, 1966.
7. Lee, T. S.: Hydrogen overpotentlal on pure metals in alkaline solution, 1. Electrochem. Soc. 118, 1278-1282, 1971.
8. Bockris, J. 0' M., and Reddy, A. K. N.: Modern Electrochemistry, Vol. l, Plenum Press, New York. 1970.
9. Lee, T. S.: Hydrogen overpotential on zinc alloys in alkaline solution, 1. Electrochem. Soc. 122, 171-173,1975.
10. Mansfeld, F., and Gilman, S.: The effect of several electrode and electrolyte additives on the corrosion and polarization behavior of the alkaline zinc electrode, 1. Electrochem. Soc. 117, 1328-1333, 1970.
II. Bard, A. J. (ed.): Encyclopedia of Electrochemislry of the Elements, Vol. IX, Part A, Marcel Dekker, New York, 1982.
12. Bockris, J. O. M., Nagy, Z., and Danjanovic, A.: On the deposition and dissolution of zinc in alkaline solutions, 1. Eleclrochem. Soc. 119,285-295, 1972.
13. Uhlig, H. H., and Revie, R. w.: Corrosion and Corrosion Control-An Introduction to Corrosion Science and Engineering, 3rd ed., John Wiley & Sons, New York, 1985.
14. Berke, N. S., and Friel, J. J.: Applications of electrochemical techniques in screening metallic-coated steels for allTIosphenc use, In Laborarory CorrosIOn Tests and Standards, STP 866, pp. 143-158, American Society for Testing and Materials, Philadelphia, 1985.
15. Gad Allah, A. G., Hefny, M. M., Salih, S. A., and EI-Basiouny, M. S.: Corrosion inhibition of zinc in HCI solution by several pyrazole derivatives, Corrosion 45, 574-578, 1989.
16. Augustynski, J., Dalard, F., and Sohm, 1. c.: Oxydation anodique du zinc en milieu faiblement basique, Corros. Sci. 12,713-724, 1972.
17. Augustynski, J.: Etude de la rupture de passivite de certains metaux electrochimiquement actifs, Corros. Sci. 13, 955-965, 1973.
18. Liu, M., Cook, G. M., and Yao, N. P.: Passivation of zinc anodes in KOH electrolytes, 1. Electrochem. Soc. 128, 1663-1668, 1981.
19. Bocchi, N., da Cunha, M. R., and D' Alkaine, C. V: The passivating films of zinc in alkaline solution, Key Eng. Maler. 20-28, 3941-3946, 1988.
409
410 REFERENCES
20. Aurian-Blajeni, B., and Tomkiewicz, M.: The passivation of zinc in alkaline solutions, J. Electrochem. Soc. 132, 1511-1515, 1985.
21. De Pinto, I. S., De Pauli, C. P., Herrera, H .. Mishima, H., and Lopez, B. A: Effect of arsenate anion on the dissolution and passivation of zinc electrode in slightly alkaline solutions, Electrochim. ACTa 31, 527-533, 1986.
22. Bocchi, N., and D' Alkaine, C. Y.: Zinc behavior in slightly alkaline solutions. The reduction processes, Key Eng. Mater. 20-28,417-423, 1988.
23. D' Alkaine, C. Y., and da Cunha, M. R.: Influence of the coj- on the passivation of zinc in slightly alkaline solutions, International Congress on Metallic Corrosion, Toronto, Ontario, pp. 122-125, 1986.
24. Chang, Y, and Prentice, G.: A model for the anodic dissolution of the zinc electrode in the prepassive
region, J. Electrochem. Soc. 136,3398-3403,1989. 25. Elder, 1. P.: The electrochemical behavior of zinc in alkaline media, J. Electrochem. Soc. 116,757-762,
1969. 26. Powers, R. W., and Breiter, M. W.: The anodic dissolution and passivation of zinc in concentrated
potassium hydroxide solutions, J. Electrochem. Soc. 116,719-729, 1969. 27. Powers, R. W.: Film formation and hydrogen evolution on the alkaline zinc electrode, J. Electrochem.
Soc. 118,685-695, 1971. 28. Szpak, S., and Gabriel, C. 1.: The Zn-KOH system: The solution-precipitation path for anodic ZnO
formation,J. Electrochem. Soc. 126, 1914-1923, 1979. 29. Powers, R. W.: Anodic films on zinc and the formation of cobwebs, 1. Electrochem. Soc. 116,
1652-1659,1969. 30. Burleigh, T. D.: Anodic photocurrents and corrosion currents on passive and active-passive metals,
Corrosion 45, 464-472,1989. 31. van Ooij, W. 1., and Sabata, A: Under-vehicle corrosion testing of primed zinc and zinc alloy-coated
steels, Corrosion 46, 162-171, 1990. 32. Darwish, N. A: Contribution to the electrochemical behaviour of some Zn-Ni systems in halide media,
J. Electrochem. Soc. India 32, 259-267, 1983. 33. Dattilo, M.: Polarization and corrosion of electrogalvanized steel-evaluation of zinc coatings obtained
from waste-derived zinc electrolytes, J. Electrochem. Soc. 132,2557-2561,1985. 34. Wu, 1. K., and Hsu, Y S.: Electrochemical corrosion of zinc in sodium chlorite, J. Mater. Sci. 21,
3475-3478, 1986. 35. Lee, H. H., and Hiam, D.: Corrosion resistance of galvannealed steel, Corrosion 45,852-856, 1989. 36. Budinski, M. K., and Wilde, B. E.: An electrochemical criterion for the development of galvanic coating
alloys for steel, Corrosion 43, 60-62, 1987. 37. Abd EI Haleem, S. M.: Environmental factors affecting the pitting corrosion potential of a zinc-titanium
alloy in sodium hydroxide solutions, Br. Corros. J. 14, 171-175. 1979. 38. Shams EI Din, AM., Abd EI Kader, 1. M., and Badran, M. M.: Galvanic corrosion in the copperlzinc
system. Part i. Potential distribution in relation to the nature of the cathode and to the type of anion in solution, Br. Corros. 1. 16,32-37,1981.
39. Hutchison, P. E, and Turner, 1.: Some aspects of the electrochemical behavior of zinc in the presence of acrylate and methacrylate anions, J. Electrochem. SOC. 123, 183-186, 1976.
40. Hefny, M. M., Gad-Allah, A. G., Salih, S. A, and EI-Basiouny, M. S.: Zinc passivation in oxalate solution, Corrosion 44, 691-695,1988.
41. LeRoy, R. L.: Evaluation of corrosion rates from nonlinear polarization data, J. Electrochem. Soc. 124, 1006-1012,1977.
42. Kapali, V., Srinivasan, K. N., Venkataraman, B., and Balakrishnan, K: Development of a series of AI-Zn-In ternary alloy anodes for the cathodic protection of submerged structures, Key Eng. Mater. 20-28, 955-962, 1988.
43. Lambert, M. R, Hart, R. G., and Townsend, H. E.: Corrosion mechanism ofZn-Ni alloyelectrodeposited coatings, at The 2nd Automotive Corrosion Prevention Conference, Dearborn, Michigan, 1983, Paper No. 831817.
44. Short, N. R., Abibsi, A, and Dennis, 1. K.: Corrosion resistance of electroplated zinc alloy coatings, Trans. Inst. Met. Finish. 67 (Part 3), 73-77, 1989.
45. Alvarez, M. G., and Galvele, J. R.: Pitting of high purity zinc and pitting potential significance, Corrosion 32, 285-294, 1976.
REFERENCES 411
46. Abd El Haleem. S. M.: Dissolution current and pitting potential of zinc in KOH solutions in relation to the concentration of aggressive ions, Br. Corros. 1.11,215-218,1976.
47. Szklarska-Smialowska, Z.: Pitting Corrosion of Metals, National Association of Corrosion Engineers, Houston, 1986.
48. Devillers, L. P.: The mechanism of aqueous intergranular corrosion in zinc-aluminium alloys, Ph. D. Thesis, University of Waterloo, 1974.
49. Devillers, L. P., and Niessen, P.: The mechanism of intergranular corrosion of dilute zinc-aluminium alloys in hot water, Corros. Sci. 16,243-252, 1976.
50. Devillers, L. P., and Niessen, P.: The mechanism of intergranular corrosion of dilute zinc-aluminium alloys in hot water, Corros. Sci. 16,243-252,1976.
51. American Hot Dip Galvanizers Association, Wet Storage Stain, Brochure, 1984. 52. Helwig, L. E.: Comparison of humid-storage tests for chromated galvanized sheet, Met. Finish. 75(5),
33-38, 1977. 53. Bird, C. E., and Strauss, F. J.: Effect of wet storage staining on subsequent atmospheric corrosion of
galvanized iron sheets. Mater. Perform. 15(11),27-29, 1976. 54. Cominco PTC Project No. 83-5-11, August 1990. 55. EI-Mallah, A. T.. and Magd, M. R. G. A: Chromate passivation of zinc, Met. Finish. 82(2),49-54, 1984. 56. Helwig, L. E.: Chromate treatment of galvanized sheet, Met. Finish. 68(7), 54-59. 1970. 57. Williams, L. F. G.: Chromate conversion coatings on zinc, Plating 1972, 931-938. 58. Williams, L. F. G.: The formation and performance of chromate conversion coatings on zinc, Surf.
Technol. 5,105-117,1977. 59. Williams, L. F. G.: The mechanism of formation of chromate conversion films on zinc, Surf Technol.
4,355-366,1976. 60. Paatsch. w.: Quality testing of coatings produced by chromating zinc, Met. Finish. 76(9), 15-17, 1978. 61. Epelboin, I., Ksouri, M., and Wiart, R.: On a model for the electrocrystallization of zinc involving an
autocatalytic step, 1. Electrochem. Soc. 122, 1206-1214, 1975. 62. McBreen, J., and Cairns, E. J.: The zinc electrode, in Advances in Electrochemistry and Electrochemical
Engineering, Vol. II, H. Gerischer and C. W. Tobias (eds.), pp. 273-352, John Wiley & Sons, New York. 1978.
63. Abdel Aal, M. S" Radwan, S .. and EI-Saied, A: Phenothiazines as corrosion inhibitors for zinc in NH4CI solution, Br. Corros. 1.18, 102-106, 1983.
64. Fiaud, c., Bensarsa, S., des Aulnois, I. D., and Tzinmann, M.: Inhibiting properties of phosphines against zinc corrosion in acidic media. Br. Corros. 1. 22,109-112,1987.
65. Ostrander. C. W.: Chromate conversion coatings, in Electroplating Engineering Handbook, 3rd ed., A. K. Graham (ed.), pp. 437-447, Van Nostrand Reinhold, Toronto, 1971.
66. Krishnamurthy, S.: Chromate conversion coatings on zinc plating, 1. Electrochem. Soc. India 30, 47 -51, 1981.
67. Van de Leest, R. E.: Yellow chromate conversion coatings on zinc: chemical composition and kinetics, Trans. Inst. Met. Finish. 56, 51-54,1978.
68. Lazauskas, v., Sarmaitis, R., Butkevicius. J" and Matulis, J.: The role of sulfate ions in chromating zinc and cadmium, Plating Surf. Finish. 66(1),58-60, 1979.
69. Helwig, L. E., and Bird, J. E.: Protection of galvanized coatings from attack by organic acid vapors, Met. Finish. 7l( II), 45-48, 52. 1973.
70. Helwig, L. E., and Swan, J. D.: Use of spot-test reagents for detecting chromates on hot-dip galvanized surfaces, Met. Finish. 80(9),37-40, 1982.
71. Duncan, J. R.: Electron spectroscopy of chromated galvanized steel sheet after heating, immersion in water or outdoor weathering, Surf. Techno!. 17,265-276, 1982.
72. Lengyel, B., Baroti-Labar, Z., and Kahan, R.: Study of chromate coatings by means of electrode impedance measurements, Mater. Chem. 7,183-194,1982.
73. Efimov, E. A, Tok, L. D., and Tverdynina, T. B.: Mechanism of the reduction of chromic acid anions to trivalent chromium ions, SOy. Electrochem. 25,1249-1251,1989 [in English].
74. Townsend, H. E., and Zoccola, J. c.: Chromate passivation protection of Zn- and Al-Zn-coated steel sheet against wet-storage stain, 1. Electrochem. Soc. 125, 1290-1292, 1978.
75. Van de Leest, R. E.: Yellow chromate conversion coatings on zinc: Electrochemical measurements and corrosion tests, Werkst. Korros. 29.648-653, 1978 [in English].
412 REFERENCES
76. Pearlstein, E: Selection and application of inorganic finishes. Part II. Chromate coatings, Plating Suif. Finish. 66(1), 30-34,1979.
77. Treverton, J. A., and Amor, M. P.: The structures and surface composition of chromate conversion coatings: An XPS and SEM study, Trans. Inst. Met. Finish. 60, 92-96, 1982.
78. Van de Leest, R E., and Wessels, J.: Stabilization of black chromate conversion coatings on zinc, Plating Surf Finish. 67(5), 86-89, 1980.
79. Spring, S., and Woods, K.: Prepaint treatments-chromate coatings, Met. Finish. 79(6),49-55, 1981. 80. Choosing chromate and phosphate processes for corrosion resistance, Corros. Prevo Control 1981
(February), 16-18,32-33. 81. Rozovsky, V. G., and Sarmaitis, R R: Corrosion resistance of black chromate conversion films on zinc,
Plating Suif. Finish. 68(10), 54-56,1981. 82. Sarmaitis, R: Corrosion resistance of chromate films on zinc, Plating Suif. Finish. 68(9), 83-86, 1981. 83. Perfetti, B. M.: A comparison of pretreatments for prepainted galvanized sheets, Met. Finish. 81(5),
57-60, 1983. 84. Timmins, E D.: Adhesion of paint to zinc surfaces, Ind. Carras. 1(3), 15-17, 1983. 85. Murphy, M.: Technical developments in 1983. Inoraganic metallic finishes, processes and equipment,
Met. Finish. 82(2), 17-32, 1984. 86. Gallaccio, A., Pearlstein, E, and D' Ambrosio, M. R: Effects of heating chromate conversion coatings,
Met. Finish. 64(8),50-54, 1966. 87. Bardin, P. C: Conversion coatings-prepare galvanized steel for painting, Ind. Finish., 1967 (July),
58-61. 88. Pearlstein, E, and D'Ambrosio, M. R: Heat resistant chromate conversion coatings, Plating 55.
345-346,1968. 89. Helwig, L. E.: Heavy chromate conversion treatments on zinc-coated steel, Met. Finish. 70(9),51-55,
1972. 90. Chromate conversion coatings for zinc & cadmium, Met. Finish. Plants Processes 7(1),15-24, 1971. 91. Bridger, R. D. E. L.: Pretreatment of galvanized surfaces prior to powder coating, Trans. Inst. Met.
Finish. 61, 13-18, 1983. 92. Centre de Recherches Metallurgiques (Belgium): White Rust Inhibition for Galvanized Steel. Interna
tional Lead Zinc Research Organization Project ZE-348, Final Report, February 1989. 93. Jardy, A., Rosset, R, and Wi art, R: Diphosphate coatings for protection of galvanized steel: quality
control by impedance measurements, 1. Appl. Electrochem. 14,537-545, 1984. 94. Kargol, J. A., and Jordan, D. L.: The influence of phosphorous alloy additions on the zinc phosphate
coating formation on cold rolled steels, Corrosion 38(4), 201-206, 1982. 95. Nancollas, G. H.: Phosphate precipitation in corrosion protection: Reaction mechanisms, Corrosion
39(3),77-82, 1983. 96. EI-Mallah, A. T., Morsy, S. M., and Ibrahim, I. G.: Electrophosphate coatings on zinc, Met. Finish. 82(8),
31-72,1984. 97. Leidheiser, H., and Suzuki, I.: Cobalt and nickel cations as corrosion inhibitors for galvanized steel, 1.
Electrochem. Soc. 128,242-249, 1981. 98. Bijimi, D., and Gabe, D. R.: Passivation studies using group VIA anions. Part III. Anodic treatment of
zinc, Br. Carras. 1. 18, 138-141, 1983. 99. Kargol, J. A., Jordan, D. L., and Palermo, A. R.: The influence of high strength cold rolled steel and
zinc coated steel surface characteristics on phosphate pretreatment, Corrosion 39, 213-218, 1983. 100. Wrubl, C, and Mor, E. D.: Zinc gluconate as an inhibitor of the corrosion of copper and zinc in sea
water, Br. Carras. 1.18,142-147,1983. 101. Kuznetsov, Y. I., and Podgornova, L. P.: Corrosion and electrochemical behavior of zinc in phosphate
solutions, Zashch. Met. 19,98-102,1983 [in English). 102. Wilcox, G. D., and Gabe, D. R: Chemical molybdate conversion treatments for zinc, Met. Finish. 86(9),
71-74,1988. 103. Leidheiser, H., and Suzuki, I.: Towards a more corrosion resistant galvanized steel, Corrosion 36,
701-702, 1980. 104. Macias, A., and Andrade, C.: Corrosion of galvanized steel reinforcements in alkaline solutions. Part I.
Electrochemical results, Br. Carras. 1. 22,113-118,1987.
REFERENCES 413
105. Macias. A .. and Andrade. c.: Corrosion of galvanized steel reinforcements in alkaline solutions. Part II. SEM study and identification of corrosion products, Br. Corros . .I. 22. 119~ 129. 1987.
106. Leidheiser. H., Simmons. G. W, Nagy. S., and Music, S.: Mossbauerspectroscopic study of the corrosion inhibition of zinc by cobalt ions,./. Electrochem. Soc. 129. 16S8~1662. 1982.
107. Leidheiser. H., Momose. Y, and Granata, R. D.: Inhibition of the cathodic reaction on zinc in aerated 3% NaCI solution, Corrosion 38, 178~ 179, 1982.
108. LeRoy, R. L.: Organic wet storage stain inhibitor-a substitute for chromates, Mate/: Pofilnn. 19(8). 54~55, 1980.
109. Shams EI Din. A. M., Abd EI Haleem, S. M .. and Abd EI Kader, 1. M.: Studies on the pitting corrosion of zinc in aqueous solutions. Part II. Measurement of pitting corrosion currents operating under natural conditions, .l. Electroanal. Chem. 65, 335~349, 1975.
110. Baugh, L. M.: Corrosion and polarization characteristics of zinc in neutral~acid media. Part I. Pure zinc in solutions of various sodium salts, Elcctrochim. Acta. 24, 657~667, 1979.
III. Baugh, L. M.: Corrosion and polarization characteristics of zinc in neutral~acid media. Part II. Effect
of NH! ions and the role of battery zinc alloying constituents. Electrochim. Acta 24. 669~677, 1979. I 12. Yamashita, T.: Electro-deposition and electro-dissolution of zinc in the vicinity of equilibrium potential
in aqueous zinc sulfate solutions . .I. Electroanal. Chel1l. 106, 95~ 102, 1980. 113. Deslouis. c.. Duprat. M .. and Tuiet-Tournillon, c.: The cathodic mass transport process during zinc
cOlTosion in neutral aeratcd sodium sulphate solutions,.I. Electmanal. Chem. 181, 119~136. 1984. 114. Boto. K. G .. and Williams. L. F. G.: The determination of the cOlTosion rate of zinc in solution by the
differential pulse method . ./. Electrochem. Soc. 124. 6S6~661, 1977. liS. Era, A .. Takehara. Z .. and Yoshizawa. S.: Influence of impurities especially lead contained in manganese
dioxide upon the self-discharge of the leclanche dry cell, Electrochim. Acta 13. 183~396. 196X
116. Zembura. Z .. and Burzynska. L.: The corrosIOn of zinc III de-aerated O. I M NaCIIn the pH range trom I. 6to 13.3. Corms. Sci. 17. 871~878. 1477.
117. Fujishima. A .. Kato. T., Maekawa. E.. and Honda, K.: Mechanism of the currem doubling effect. Part I. The ZnO photaanode in aqueous solution of sodium formate, Bull. Chern. SoC, .lpn. 54. 1671 ~ 1674.
1984. 118. Walter, G. W: Corrosion rates of zinc, zinc coatings and steel in aerated slightly acidic chloride solutions
calculated from low polarization data. Corms. Sci. 16, S73~586. 1976. 119. Helwig. L. E.: Premature darkening of galvanized roofing sheets. Part L Mel. Finish. 82(4). 41~46,
1484. 120. Helwig. L. E.: Premature darkening of galvanized roofing sheets. Part II, Met. Finish. 82(5). 61~64.
1984. 121. Mansfeld, F., and Kenkel, J. V: Electrochemical monitoring of atmospheric corrosion phenomena.
Corms. Sci. 16. III ~ 122, 1976. 122. Yan, B., Meilink. S. L., Warren. G. W. and Wynblatt. P.: IEEE Trans. Componellls, Hybrids Mallufac·
turing Technoi .. CHMT-IO. 247, 1987. 123. Stratmann, M.: The investigation of the corrosion properties of metals, covered with adsorbed electrolyte
layers-a new experimental technique, Corros. Sci. 27, 869~872, 1987. 124. Stratmann, M., and Streckel, H.: On the atmospheric corrosion of metals which are covered with thin
electrolyte layers. Part I. Verification of the experimemal technique, Corms. Sci. 30, 681 ~696. 1990. 125. Stratmann, M .. and Streckel. H.: On the atmospheric corrosion of metals which are covered with thin
electrolyte layers. Part II. Experimental results, Corros. Sci. 30, 697~ 714, 1990. 126. Stratmann, M .. Streckel, H .. Kim, K. T., and Crockett, S.: On the atmospheric corrosion of metals which
are covered with thin electrolyte layers. Part III. The measurement of polarisation curves on metal surfaces which are covered by thin electrolyte layers, Carras. Sci. 30, 715~ 734, 1990.
127. Kaesche, H.: The passivity of zinc in aqueous solutions of sodium carbonate and sodium bicarbonate, Electrochim. Acta 9, 383~394, 1964.
128. Bota, K. G., and Williams, L. F. G.: Rotating disc electrode studies of zinc corrosion,./. Electroanal. Cizem. 77. 1~20, 1977.
129. Gerischer. H.: Electrochemical behavior of semiconductors under illumination,.I. Eieelrochem. Soc. 113, 1174~ I 182, 1966.
130. Epelboin, I.. Ksouri, M., and Wi art, R.: On a model for the electrocrystallization of zinc involving an autocatalytic step,.I. Electmehem. Soc. 122, 1206~ 1214, 1975.
414 REFERENCES
131. Isaacson, M. J., McLarnon, E R, and Cairns. E. J.: Zinc electrode rest potentials in concentrated KOH-K2Zn(OH)4 electrolytes. 1. Electrochem. Soc. 137,2361-2364,1990.
132. St-Pierre, J .• and Piron. D. L.: Mechanism of cathodic potential oscillations of the zinc electrode in alkaline solutions. 1. Electrochem. Soc. 137,2491-2498, 1990.
133. Bard, A. J .. and Faulkner, L. R: Electrochemical Methods-Fundamentals and Applications, John Wiley & Sons. New York. 1980.
134. Mansfeld, E, Kendig, M. w., and Tsai. S.: Recording and analysis of AC impedance data for corrosion studies. Part II. Experimental approach and results, Corrosion 38. 570-580. 1982.
135. Mansfeld. E, and Kendig, M.: Evaluation of protective coatings with impedance measurements, Proceedings of the International Congress on Metallic Corrosion, Toronto. Ontario. 1984. Vol. 3. pp. 74-84.
136. Mansfeld, E: Recording and analysis of AC impedance data for corrosion studies. Part I. Background and methods of analysis. Corrosion 36. 301-307,1981.
137. Macdonald, D. D.: Theoretical analysis of electrochemical impedance, National Association of Corrosion Engineers Corrosion '87 Conference, San Francisco, March 9-13,1987, Paper No. 479.
138. Macdonald, D. D.: Some advantages and pitfalls of electrochemical impedance spectroscopy, Corrosion 46.229-242 (1990).
139. Brown, R P., and Kessler. R. J.: One year laboratory testing of plain and galvanized rebars in chloride containing concrete, Dept. of Transportation, Florida Corrosion Report No. 78-2, 1978.
140. Silverman, D. c.: Rapid corrosion screening in poorly defined systems by electrochemical impedance technique. Corrosion 46. 589-598, 1990.
141. Mansfeld, E. Kendig, M. W., and Tsai, S.: Evaluation of corrosion behavior of coated metals with AC impedance measurements. Corrosion 38, 478-485,1982.
142. Sagues, A A: Corrosion measurements of reinforcing steel in concrete exposed to various aqueous environments, National Association of Corrosion Engineers Corrosion' 87 Conference, San Francisco, March 9-13,1987, Paper No. 118.
143. Wheat, H. G., and Eliezer, Z.: Comments on the identification of a chloride threshold in the corrosion of steel in concrete, Corrosion 43,126-128,1987.
144. Kendig, M., and Mansfeld, E: Corrosion rates from impedance measurements: An improved approach for rapid automatic analysis, Corrosion 39, 466-467, 1983.
145. Matsuoka, K.: Monitoring of corrosion of reinforcing bar in concrete, National Association of Corrosion Engineers Corrosion '87 Conference. San Francisco, March 9-13, 1987, Paper No. 121.
146. Berthier, E, Diard. J. P.,Jussiaume, A, and Rameau, J. J.: The instantaneous impedance of non-stationary electrochemical systems: Application to a corroding zinc electrode, Corros. Sci. 30. 239-247, 1990.
147. Hendrikx, J., Visscher, W., and Barendrecht, E.: Impedance measurements of zinc and amalgamated zinc electrodes in alkaline electrolyte, Electrochim. Acta 30, 999-1006, 1985.
148. Rodgers, R .. Rothstein, M. L.. and Palus, A E: Instrumentation for the automated A.C. impedance analysis of electrochemical systems, Proceedings of the National Association of Corrosion Engineers Metallography and Corrosion Conference. July 1986, pp. 203-220.
149. Castle, J. E.: Corrosion test methods, Br. Corros. 1. 22, 77-82,1987. I SO. Siebert, O. W.: Laboratory electrochemical test methods, Laboratory Corrosion Tests and Standards,
STP 866, American Society for Testing and Materials, Philadelphia, 65-90, 1985. 151. American Society for Testing and Materials: Standard reference test method for making potentiostatic
and potentiodynamic anodic polarization measurements. in Annual Book of ASTM Standards, Vol. 03.02, No. G5-87, pp. 79-85,1989.
152. American Society for Testing and Materials: Standard practice for conventions applicable to electrochemical measurements in corrosion testing, in Annual Book of ASTM Standards, Vol. 03.02, No. G3, pp.62-67, 1989.
153. American Society for Testing and Materials: Standard practice for conducting potentiodynamic polarization resistance measurements, in Annual Book of ASTM Standards, Vol. 03.02. No. G59-78, pp. 221-224, 1989.
154. Ahmed, D. S., Ashworth, v., Scantlebury, J. D., and Wyatt, B. S.: Mechanism of inter granular attack in Zn-AI-Cd sacrificial anodes at elevated temperatures, Br. Corros. 1. 24, 149-152, 1989.
ISS. Clarke, S. G., and Andrew, J. E: The chromate passivation of zinc, 1. Electrodepos. Tech. Soc. 20,
119-138,1945.
REFERENCES 415
156. Stratmann, M., Streckel, H., Kim, K. T., and Crockett. S.: On the atmospheric corrosion of metals which
are covered with thin electrolyte layers. Part III. The measurement of polarisation curves on metal surfaces which are covered by thin electrolyte layers, Corros. Sci. 30, 715-734, 1990.
157. Stratmann, M., and Streckel, H.: On the atmospheric corrosion of metals which are covered with thin electrolyte layers. Part II. Experimental results, Corros. Sci. 30, 697-714. 1990.
158. Gonzalez, J. A., Otero. E .. and Cabanas. c.: Recording polarisation curves in thin electrolyte layers by
electrochemical atmospheric corrosion monitors. Br. Corros. 1. 25.125-130,1990. 159. White, R. T.: A review of corrosion inhibitors. Part I, Corrosion and Coatings South Africa 1986(8), 2.
4,6,8.
160. White, R T.: A review of corrosion inhibitors. Part II, Corros. Coatings S. Afr. 1986( 10), 4, 6, 10. 161. Leidheiser, H.: A review of proposed mechanisms for corrosion inhibition and passivation by metallic
cations, Corrosion 36, 339-345, 1980.
162. Leroy, R L.: Polythoiglycolate passivation of zinc, Corrosion 34. 113-119, 1978. 163. Rausch, w., and Mueller, G., (MetallgesellschaftA. G., Germany): Process for phosphating metals, U.S.
Patent 4637838. January 20, 1987. 164. Abdel Aal, M. S., Abdel Wahab, A. A., and EI Saied, A.: A study of the inhibiting action of benzene
thiols and related compounds on the corrosion of zinc in acidic media, Corrosion 37, 557-563, 1981. 165. Penninger, J. (Henkel Kommanditgesellschaft auf Aktien, Germany): Method for inhibiting corrosion
of zinc using bis-triazoles, U.S. Patent 4636359, January 13, 1987. 166. Abd EI Haleem, S. M., and Abdel Fattah, A. A.: The role of some organic anions in promoting or
inhibiting the corrosion of zinc, Surf Coatings Techno/. 29, 41-49. 1986. 167. Massinon, D., Dauchelle. D., and Charbonnier, 1. c.: On the contribution of electrochemical methods
in the study of corrosion mechanisms in automotive body steel sheets, Mater. Sci. Forum, 44-45, 461-476, 1989.
168. Shastry, C R, and Townsend. H. E.: Mechanisms of cosmetic corrosion in painted zinc and zinc-alloycoated sheet stcels, Corrosion 45, 103-118. 1989.
169. Shastry, C. R., and Townsend, H. E.: Failure mechanisms of painted sheet steel in a chipping corrosion
test, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GAL
VATECH '89, Tokyo. September 5-7, 1989, pp. 511-518. 170. Serra, E. T., and de L. Fragata, E: Surface treatments of galvanized steel for painting, International
Congress on Metallic Corrosion. Toronto, Ontario, 1984, pp. 384-389. 171. Lengyel, 8., Meszaros, L., Kahan, R., and Jeney, I.: Study of chromate coatings by impedance technique,
Proceedings of the Symposium on Electroplating, Budapest, Hungary, April 16-19, 1985. 172. Abu Zahra, R. H .. and Shams EI Din, A. M.: A radiotracer study on the reaction between zinc and
chromate, Corros. Sci. 5, 517-524.1965. 173. Friel. J. J.: Atmospheric corrosion products on AI, Zn. and AIZn metallic coatings. Corrosion 42,
422-426, 1986. 174. Sergi, G., Short. N. R., and Page. C L.: Corrosion of galvanized and galvannealed steel in solutions of
pH 9. ° to 14.0, Corrosion 41. 618-624, 1985. 175. Macias, A., and Andrade, c.: Corrosion rate of galvanized steel immersed in saturated solutions of
Ca(OH}z in the pH range 12-13. 8, Br. Corros. 1.18,82-87,1983. 176. Jones, D. A .. and Nair, N. R.: Electrochemical corrosion studies on zinc-coated steel, Corrosion 41,
357-362, 1985. 177. Maahn, E .. and Sorensen, B.: The influence of microstructure on the corrosion properties of hot-dip
galvanized reinforcement in concrete, Corrosion 42,187-196,1986. 178. Kiss, K., and Coll-Palagos, M.: Cyclic voltammetric and scanning electron microscopic evaluation of
the corrosion resistance ofZn-phosphated steel, Corrosion 43,8-14.1987. 179. Mor, E. D., and Beccaria, A. M.: Effect of temperature on the corrodibility of copper and zinc in synthetic
sea water, Corrosion 31, 275-279, 1975. 180. Batrakov, Y Y, Bogdanov, N. Y, and Kocherov, A. V.: The application of alternating current method
for adsorption and corrosion measurement on iron and zinc, Proceedings of the International Congress on Metallic Corrosion, Toronto, Ontario, June 3-7,1984, Vol. I, pp. 287-290.
181. Johnson, 1. W., Sun, Y. C, and James, W. 1.: Anodic dissolution ofZn in aqueous salt solutions, Corros. Sci. 11, 153-159. 1971.
416 REFERENCES
182. James, W. J., Straumanis, M. E., and Johnson, J. W: Anodic disintegration of metals undergoing electrolysis in aqueous salt solutions, Corrosion 23,15-23,1967.
183. Stiles, D. C, and Edney, E. 0.: Dissolution of zinc into thin aqueous films as a function of residence time, acidic species, and pH, Corrosion 45, 896-901. 1989.
184. Yee, S., Stratmann, M., and Oriani, R. A: Application of a Kelvin microprobe to the corrosion of metals
in humid atmospheres, 1. Electrochem. Soc. 138, 55-61, 1991. 185. Haynie, F. H., Spence, J. W, and Upham, 1. B.: Effects of air pollutants on weathering steel and
galvanized steel: A chamber study, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 30-47, American Society for Testing and Materials, Philadelphia, 1978.
186. German, G.: Behavior of zinc-coated steel in highway environments, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 74-82, American Society for Testing and Materials, Philadelphia, 1978.
187. LegaUlt, R. A, and Pearson, Y. P.: Kinetics of the atmospheric corrosion of galvanized steel, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 83-96, American Society for Testing and Materials, Philadelphia, 1978.
188. Payer, J. H., and Safranek, W H.: Atmospheric corrosion of electroplated zinc alloy die castings, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 115-128, American
Society for Testing and Materials, Philadelphia, 1978. 189. Zoccola,1. C, Townsend, H. E., Borzillo, A. R., and Horton, J. B.: Atmospheric corrosion behavIOr of
aluminum-zinc alloy-coated steel, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 165-184, American Society for Testing and Materials, Philadelphia, 1978.
190. Guttman, H.: Effects of atmospheric factors on the corrosion of rolled ZInC, in Mewl Corrosion in the Atmosphere, STP 435, pp. 223-239, American Society for Testing and Materials, Philadelphia, 1968.
191. Guttman, H., and Sereda, P. J.: Measurement of atmospheric factors affecting the corrosion of metals, in Metal Corrosion in the Atmosphere, STP 435, pp. 326-359, American Society for Testing and Materials, Philadelphia, 1968.
192. Guttman, H.: Atmospheric and weather factors in corrosion testing, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 51-68, John Wiley & Sons, New York, 1982.
193. Mansfeld, E, and Kenkel, J. Y.: Electrochemical studies of atmospheric corrosion, Corrosion '75, Symposium on the Protection and Performance of Materials, Toronto, Ontario, April 14-18, 1975, Paper
No. 161. 194. Glass, G. K., and Ashworth, Y.: The corrosion behaviour of the zinc-mild steel galvanic cell in hot
sodium bicarbonate solution, Corros. Sci. 25, 971-983,1985. 195. Mansfeld, E, Jeanjaquet, S. L., Roe, D. K., and Carey, R.: A new corrosion rate monitor and data logging
system for atmospheric corrosion studies, National Association of Corrosion Engineers Corrosion' 87 Conference, San Francisco, March 9- 13, 1987, Paper No.4 I I.
196. Hubbard, D. J., and Shanahan, C E. A.: Corrosion of zinc and steel in dilute aqueous solutions, Br. Corros.l. 8, 270-274,1973.
197. Macias, A., and Andrade, C: Corrosion of galvanized steel in dilute Ca(OHh solutions (pH I I. I - I 2.6), Br. Corros. 1.22,162-171,1987.
198. Calvo, E A., Otero, E., and Pardo, A.: Corrosion protection of galvanized steel pipe in acidic media by surface amalgamation, Br. Corros. 1. 22, 185-189, 1987.
199. Wilcox, G. D., and Gabe, D. R.: Passivation studies using group VIA anions. Part Y. Cathodic treatment of zinc, Br. Corros. 1. 22, 254-258, 1987.
200. Andrade, C, and Castelo, Y.: Practical measurement of the AC impedance of steel bars embedded in concrete by means of a spectrum analyser (fast Fourier transform), Br. Corros. 1. 19, 98-100, 1984.
201. Gonzalez, J. A, Otero, E., Cabanas, C, and Bastidas, 1. M.: Electrochemical sensors for atmospheric corrosion rates. A new design, Br. Corros. 1. 19, 89-94, 1984.
202. Blanco. M. T., Andrade, C, and Macias, A.: SEM study of the corrosion products of galvanized reinforcements immersed in solutions in the pH range 12.6 to 13.6, Br. Corras. 1. 19,41-48,1984.
203. Defrancq, J. N.: Zinc and zinc-lead alloys in domestic water, Br. Corros. 1.17, 125-130, 1982. 204. Saleh, R. M., Ismail, A A., and El Hosary, A. A.: Corrosion inhibition by naturally occurring substances,
Part VII. The effect of aqueous extracts of some leaves and fruit-peels on the corrosion of steel, AI, Zn and Cu in acids, Br. Corros. 1.17,131-135,1982.
REFERENCES 417
205. Shams EI Din, A. M., AbdEI Kader,J. M., and Kuhn, A. T.: Pitting corrosion of zinc in aqueous solutions. Part III. Effect of anode to cathode surface area ratio on pitting corrosion currents, Br. Corros. 1. 15, 208-210,1980.
206. Muralidharan, V. S., and Rajagopalan, K. S.: Kinetics and mechanism of passivation of zinc in dilute sodium hydroxide solutions, Br. Corros. 1. 14, 231-234, 1979.
207. Rudresh, H. B., and Mayanna, S. M.: n-Decylamine as a corrosion inhibitor for zinc in acidic solution, Br. Corros. 1.12,54-56,1977.
208. Mor, E. D., and Beccaria, A. M.: Inhibitory action of acrylonitrile on the corrosion of zinc in sea water, Br. Corros. 1.8,25-27,1973.
209. Mor, E. D., Beccaria, A. M., and Poggi, G.: Behaviour of zinc in sea water in the presence of sulphides. Br. Corros. 1. (Quarterly) 1974(1). 53-56.
210. Mansfeld, E. and Tsai. S.: Laboratory studies of atmospheric corrosion. Part I. Weight loss and electrochemical measurements, Corros. Sci. 20, 853-872. 1980.
211. Kesternich, W.: Corrosion testing of metallic and non-metallic coatings in an artificial industrial atmosphere, Stahl Eisen 71( II), 1951.
212. Townsend, H. E.: Status of a cooperative effort by the automotive and steel industries to develop a standard accelerated corrosion test, SAE Technical Paper No. 892569. Society of Automative Engineers 1989 Automotive Corrosion & Prevention Conference & Exposition, Dearborn, Michigan, December 4-6, 1989.
213. Lyon, S. B., Thompson, G. E., Johnson, 1. B., Wood, G. c., and Ferguson, 1. M.: Accelerated atmospheric corrosion testing using a cyclic wet/dry exposure test: Aluminum, galvanized steel, and steel, Corrosion 43,719-726, 1987.
214. Lambert, M. R., Townsend, H. E., Hart, R. G., and Frydrych, D. J.: Accelerated corrosion tests of precoated sheet steels for automobiles, Ind. Eng. Chem. Prod. Res. Dev. 24, 378-384. 1985.
215. Abbas, M. I.. Ahmed, M. S., and Shahin, M. A.: Effect of galvannealing heat treatment on the corrosion characteristics of galvanized steel, CIM Bull. 82, 69-73, 1989.
216. Wilde, B. E.: An electrochemical criterion for galvanic protection of steel exposed to marine environments, C1M Bull. 83, /62-164, 1990.
217. Slunder, C. 1., and Boyd, W. K.: Zinc: Its Corrosion Resistance, 2nd ed., International Lead Zinc Research Organization, Inc .• New York, 1986.
218. Morgan. S. W. K.: Zinc and Its Alloys and Compounds, John Wiley & Sons, Toronto, 1985. 219. Ho, M. S.: Atmospheric Corrosion Results of ZM-1I3 Galvanized Samples after Fifteen Years of
Exposure, Cominco PTC Project No. 84-5-511, Report No. I. June 4. 1985. 220. Mercille, G. P.: Corrosion Evaluation of Zinc, No.3 Alloy and ZA-12 Alloy Embedded in Concrete for
10 Years, Cominco PTC Project No. 83-5-511. Report No.3, 1987. 221. McBreen. J .• and Cairns, E. J.: The zinc electrode. in Advances in Electrochemistry and Electrochemical
Engineering, Vol. II, H. Gerischer and C. W. Tobias (eds.). pp. 273-352. John Wiley & Sons, New York. 1978.
222. Ashton, R. E. and Hepworth, M. T.: Effect of crystal orientation on the anodic polarization and passivity of zinc. Corrosion 24, 50-53, 1968.
223. Goodrich. 1. D .• and Schmid, G. M.: The dissolution of zinc in the NaNOr NH4CI-NHr H20 system.
Corrosion 24. 252-254. 1968. 224. Devillers, L. P .• and Niessen. P.: Accelerated grain boundary corrosIOn of dilute zinc-aluminum alloys
under high applied cathodic currents, Corrosion 32, 152-154, 1976. 225. Melton. K. N .. and Edington, J. W.: Effect of increasing aluminum content on the boiling water corrosion
resistance of superplastic Zn-Al alloys, Corrosion 31, 146-147, 1975. 226. Weast. R. c., and Shulman, S. L.: Corrosion of zinc in pressurized dilute aqueous solution systems,
Corrosion 18, 417-420,1962. 227. Steinbicker, R. N., and Fountoulakis, S. G.: Production of zinc-nickel electoplated coatings, Iron Steel
Eng. 1989(7), 28-31. 228. Dargis, R. G.: Zinc-alloy electroplates as functional finishes, Prod. Finish. 1990(10), 43-54. 229. Sharples. T. E.: Zn-Co: Fighting corrosion in the 90's, Prod. Finish. 1990(3),38-44. 230. Waldron, L. J., and Peterson, M. H.: Effect of iron, aluminum and cadmium additions on the performance
of zinc anodes in sea water, Corrosion 16, 81-85, 1960.
418 REFERENCES
231. Dirkse, T. P., and Timmer, R.: The corrosion of zinc in KOH solutions, 1. Electmchem. Soc. 116, 162-165,1969.
232. Vorkapic, L. Z., Drazic, D. M., and Despic, A R.: Corrosion of pure and amalgamated zinc In
concentrated alkali hydroxide solutions, J. Electrochem. Soc. 121, 1385-1392,1974. 233. Beard, R. B., Carim, H. M., Dubin, S. E., DeRosa, J, E. and Miller. A S.: Corrosion and histopathological
studies on anode materials for implantable power sources. J. Electrochem. Soc. 121. 1129-1133. 1974. 234. Gregory, D. P., Jones, P. c., and Redfearn. D. P.: The corrosion of zinc anodes in aqueous alkaline
electrolytes, J. Electrochem. Soc. 119, 1288-1292, 1972. 235. Williams, D. N., Koehl, B. G., Berry. W. E., and Bartlett, E. S.: The corrosion behavior of Zn-22AI
alloy sheet, J. Electrochem. Soc. 118, 1684-1688, 1971. 236. Townsend, H. E., and Meitzner, C. E: Corrosion resistance of zinc/4% aluminum and zincl7% aluminum
alloy coatings compared to zinc and zinc/54% aluminum alloy coatings, Mater. Perform. 22( 1),54, 1983. 237. Irving, R. R.: Galfan the zinc-aluminum coating, Iron Age 1986(Aug. I)' 47. 49. 238. Witmer, D. A: New markets for corrosion-resistant galvalume steel sheets. ASM Technical Paper No.
8201-035, 1982 American Society for Metals Metals Congress. SI. Louis. Missouri. October 23-28. 1982.
239. Lynch, R. E, and Goodwin, E E.: Galfan coated steel for automotive applications. SAE Technical Paper No. 860658, Society of Automotive Engineers International Congress and Exposition, Detroit, February 24-28. 1986.
240. Baumgartner, M., and Kaesche, H.: Intercrystalline corrosion and stress corrosion cracking of AIZnMg alloys, Corrosion 44, 231-239, 1988.
241. Centre de Recherches Metallurgiques (Belgium): Galfan: Its Corrosion Resistance in an Industrial Atmosphere, International Lead Zinc Research Organization Project ZM 285, Progress Report No. 14A July I-Dec. 31,1985.
242. Centre de Recherches Metallurgiques (Belgium): Atmospheric Exposure Testing of Galfan, International Lead Zinc Research Organization Project ZM 285, Progress Report No. 15B, Jan. I-June 30,
1986. 243. Centre de Recherches Metallurgiques (Belgium): Electrochemical Study of Coil Coated Galfan,
International Lead Zinc Research Organization Project ZM 285, Progress Report No. 14C. July I-Dec. 31,1985.
244. Hubrecht, 1., Skenazi, A E, Vereecken, J .. and Coutsouradis, D.: Corrosion resistance of Galfan and coil coated Galfan in chloride containing atmospheres. ATB Metall. 25(3), 243-252, 1985.
245. Herrschaft, D. c., Radtke. S. E, Coutsouradis, D., and Pelerin, J.: Galfan-A New Zinc-Alloy Coated Steel for Automotive Body Use. SAE Technical Paper No. 830517, Society of Automotive Engineers International Congress and Exposition, Detroit, February 28-March 4, 1983.
246. Sharples, T. E.: Zinclzinc alloy plating, Prod. Finish. 1988(4),50-56. 247. Loto, C. A: Corrosion evaluation of cast iron, aluminium alloy, galvanized and stainless steels in cassava
juice, Corros. Prevo Control 1990(October). 13] -] 38. 248. Townsend, H. E., and Borzillo, A. R.: Twenty-year atmospheric corrosion tests of hot-dip coated sheet
steel, National Association of Corrosion Engineers Corrosion' 87 Conference. San Francisco, March '9-13, 1987, Paper No. 421.
249. Vi art, G.: Galvanised steel wire with high corrosion resistance, Wire Ind. 1984( I), 76-78, 83. 250. Allegra, L., Berke, N. S., and Townsend, H. E.: Resistance of galvanized, aluminum-coated, and 55%
AI-Zn-coated steel sheet to atmospheric corrosion involving standing water, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 595-606, John Wiley & Sons, New York, 1982.
251. Dreulle, N., Frappa, A, Limare, A, Piessen, P., and Sokolowski, R.: Effect of aluminum on the protection of steel by zinc against atmospheric corrosion, Mater. Tech. 1985(Feb.-Mar.), 77-83.
252. Nuenninghoff, R., and Fischer, H.: Corrosion behaviour of zinc-aluminum alloys on steel wire, Stahl Eisen 105(9), 517-522,1985.
253. Leroy, V., and Schmitz, B.: Surface chemistry of Zn and ZnlAI hot-dipped steels: Influence of some processing parameters, Scand. J. Metall. 17, 17-23, 1988.
254. Matthews, P.: Impact of Galvalume on zinc consumption, Cominco Ltd., Metals Market Research Report, October 1981.
255. Townsend, H. E., and Zoccola, J. c.: A comparison of the corrosion resistances of skyward- and groundward-exposed surfaces of 55% aluminum-zinc alloy-coated and zinc-coated steel sheet, Pro-
REFERENCES 419
ceedings of the International Congress on Metallic Corrosion, Toronto, Ontario, Vol. 3, pp. 216-219, 1984.
256. Dreulle, P, Rosset, R., and Jardy, A.: Corrorsion properties of steel sheet coated with Zn-AI alloys, Proceedings of the 12th International Galvanizing Conference, INTERGALVA '79, Paris, France, May 17-23, 1979.
257. Campbell, H. S.: Zinc-aluminium coatings for hot water tanks: Summary report. The British NonFerrous Metals Research Association, Report No, A, 1382, March 1962.
258. Pourbaix, M., Van Muylder, J., Pourbaix, A., and Kissel, J.: An electrochemical wet and dry method for atmospheric corrosion testing, in Almospheric Corrosion, W. H. Ailor (ed.), pp. 167-177, John Wiley & Sons, New York, 1982.
259. American Society for Testing and Materials: Standard test method of salt spray (fog) tcsting, in Annllal Book ofASTM Standards, Vol. 02.05, No. BI17-90, pp. 19-25, 1990.
260. Warnecke, W., Bode, R., Kothe, R., and Meyer, L.: Modern hot dip coated sheet steel-processing, coating characteristics and fabricating properties, in Zinc-Based Sleet Coaling Srslems: Mela/lurgy and Per/(Jrlnance, G. Krauss and D. K. Matlock (cds.), pp. 3-17, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
261. Marder, A. R.: Microstructural characterization of zinc coatings, in Zinc-Based Sleel Coaling :Svslems: Metallurgv and Performance, G. Krauss and D. K. Matlock (eds.), pp. 55-82, The Minerals. Metals and Materials Society. Warrendale, Pennsylvania, 1990.
262. Mackowiak, J., and Short. N. R.: Metallurgy of galvanized coatings, Int. Mel. Rev. No. I, 1979, Review No. 237.
263. Takahashi, A., Miyoshi, Y, and Hada, T.: A study on microstructure ofZn-Ni-Si02 composite platings by transmission electron microscope, in Zinc-Based Sleel Coating Systems: Meta/lll~"r and Per/rlr/nance, G. Krauss and D. K. Matlock (eds.), pp. 83-94, The Minerals. Metals and Materials Society. WaITendale. Pennsylvania, 1990.
264. Chen, Y L., and Snyder, D. D.: Microstructural investigation of electroplated Zn-Ni coatings on cold-rolled steel, in Zinc-Based Steel Coating Systems: Melallurgyand Performance, G. Krauss and D. K. Matlock (cds.). pp. 95-107, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania,
1990. 265. Lin, Y, Pak, S., and Meshii, M.: Investigation of pure zinc electrogalvanized coatings by electron
microscopy, in Zinc-Based Steel Coating SYstems: Metallurgy and Per/rlrlnance, G. Krauss and D. K. Matlock (cds.), pp. 109-119, The Minerals. Metals and Materials Society, Warrendale, Pennsylvania,
1990. 266. Shaffer, S. 1., Morris, 1. W., and Wenk, H. R.: Textural characterization and its applications on zinc
electrogalvanized steels, in Zinc-Based Sleel Coating Systems: Metallurgy and Peljormance, G. Krauss and D. K. Matlock (eds.), pp. 129-140, The Minerals, Metals and Materials Society, Warrendale, Pennsyl vania, 1990.
267. Apostolos. J. A.: Cathodic protection of reinforced concrete using /lame sprayed zinc, National Association of Corrosi on Engineers Corrosion' 83 Conference, Anaheim, California, April I R-22, 19R3. Paper No. 180.
268. Cook, A. R., and Radtke, S. E: Recent research on galvanized steel for reinforcement of concretc, in Chloride Corrosion of'Steel in Concrete, STP 629, pp. 51-60, American Society for Testing and Materials. Philadelphia, 1977.
269. Kilareski, W. P.: Epoxy coatings for corrosion protection of reinforcement steel, in Chloride Corrosion of Sleet in Concl'Cle, STP 629, pp. 82-88, American Society for Testing and Materials, Philadelphia, 1977.
270. Vrable, 1. B.: Cathodic protection for reinforcing steel in concrete, in Chloride Corrosion of Steel in Concrete, STP 629, pp. 124-149, American Society for Testing and Materials, Philadelphia, 1977.
271. Treadaway, K. W. J., Brown. B. L., and Cox, R. N.: Durability of galvanized steel in concrete. in
Corrosion olReill/orcillg Sleel in Concrele, STP 713, pp. 102-131, American Society for Testing and Materials, Philadelphia, 1980.
272. Biczok, I.: COllclde Corrosion and Concrete Prolection, Chemical Publishing Co., New York, 1967. 273. Stark, D.: Measurement techniques and evaluation of galvanized reinforcing steel in concrete structures
in Bermuda, in Corrosion ofReil!/orcing Steel in Concrete, STP 713, pp. 132-141, American Society for Testing and Materials, Philadelphia, 1980.
420 REFERENCES
274. Cornet, I., and Bresler, B.: Critique of testing procedures related to measuring the performance of galvanized steel reinforcement in concrete, in Corrosion of Reinforcing Steel in Concrete, STP 713, pp. 160-195, American Society for Testing and Materials, Philadelphia, 1980.
275. Corderoy, D. 1. H., and Herzog, H.: Passivation of galvanized reinforcement by inhibitor anions. in Corrosion of Reinforcing Steel in Concrete, STP 713, pp. 142-159, American Society for Testing and Materials, Philadelphia, 1980.
276. Wyatt, B. S., and Irvine. D. 1.: A review of cathodic protection of reinforced concrete, Mater. Perform. 26(12),12-21, 1987.
277. Mudd, C. 1., Mussinelli, G. L., Tettamanti, M., and Pedeferri, P.: Cathodic protection steel in concrete, Mater. Perform. 27(9), 18-24, 1988.
278. Feliu, S., Gonzalez, 1. A., Feliu, S., Jr., and Andrade, c.: Relationship between conductivity of concrete and corrosion of reinforcing bars, Br. Corros. 1. 24, 196-198, 1989.
279. Bush, G. w.: Developments in the continuous galvanizing of steel, 1. Metals 41(8),34-36, 1989. 280. Gustafson, D. P.: Steel reinforcement: Purpose, types, and uses, ASTM Standardization News 1990(12),
38-42. 281. Bogner, B.: Review of internal corrosion of underground fuel storage tanks, Mater. Perform. 29(10),
30-32, 1990. 282. Irie, T.: Development of zinc-based coatings for automotive sheet steel in Japan, in Zinc-Based Steel
Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 143-155, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
283. Lee, H. H.: The corrosion resistance of electrodeposited Zn-Ni alloy coatings, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 157-169, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
284. Abe, M., Shiohara, Y., and Okado, A.: Coating characteristics and performance of electrodeposited Zn-Si02 composite coating, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 171-181, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
285. Goodwin, F. E.: Mechanisms of corrosion of zinc and zinc-5% aluminum steel sheet coatings, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 183-193, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania. 1990.
286. Jordan, D. L.: Influence of iron corrosion products on the underfilm corrosion of painted steel and galvanized steel, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 195-205, The Minerals, Metals and Materials Society, Warrendale, Pennsyl vania, 1990.
287. Mabuchi, M., Takao, K., Ogishi, H., Kimura, H., and Ichida, T.: Effect of organic composite coating on corrosion resistance ofZn-Ni alloy coated sheet steel, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 207-218, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
288. Claus, G., Houbaert, Y., Dilewijns, 1., Meers, U., Vanthournout, M., and Verhoeven, G.: Behaviour of prephosphated Zn-coated steel sheet during and after final phosphating, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 219-230, The Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990.
289. Yau, Y., and Fountoulakis, S. G.: Characterization of the coating-to-steel interface strength in ZnNi coated sheet steel, in Zinc-Based Steel Coating Systems: Metallurgy and Performance, G. Krauss and D. K. Matlock (eds.), pp. 371-386, The Minerals. Metals and Materials Society, Warrendale, Pennsylvania, 1990.
290. Yeomans, S. R., and Novak, M. P.: Further studies of the comparative properties and behaviour of galvanized and epoxy coated steel reinforcement, International Lead Zinc Research Organization Project ZE-341, Progress Report No.4, Research Triangle Park, North Carolina, July 1990.
291. Fiaud, C.: Electrochemical behavior of atmospheric pollutants in thin liquid layers related to atmospheric corrosion, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 161-166, John Wiley & Sons, New York,1982.
292. Warwick, M. E., and Hampshire, W. B.: Atmospheric corrosion of tin and tin alloys, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 509-527, John Wiley & Sons, New York, 1982.
REFERENCES 421
293. Kucera. Y. and Mattsson, E.: Atmospheric corrosion of bimetallic structures. in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 561-574. John Wiley & Sons, New York. 1982.
294. Dunbar. S. R., and Showak. W.: Atmospheric corrosion of zinc and its alloys, in Atlllospheric Corrosion, W. H. Ailor (ed.), pp. 529-552, John Wiley & Sons, New York, 1982.
295. Legault, R. A.: Atmospheric corrosion of galvanized steel, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 607-613, John Wiley & Sons, New York, 1982.
296. Leidheiser, H., and Suzuki, I.: Cobalt and nickel cations as corrosion inhibitors for galvanized steel. in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 615-629, John Wiley & Sons, New York, 1982.
297. Biestek, T.: Atmospheric corrosion testing of electrodeposited zinc and cadmium coatings, in Atmospheric Corrosion, W. H. Ailor (cd.), pp. 63 I -643, John Wiley & Sons, New York, 1982.
298. Altorfer. K. J.: Service evaluation of zinc thermal spraying systems, in Atmospheric Corrosion. W. H. Ailor (cd.), pp. 645-650, John Wiley & Sons, New York, 1982.
299. Talati, J. D., and Patel. B. M.: Atmospheric corrosion of metals under moving conditions, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 695-703, John Wiley & Sons, New York, 1982.
300. Moresby. J. E, Reeves, E M .. and Spedding, D. J.: Atmospheric corrosion testing in Australasia. in
Atmospheric Corrosioll, W. H. Ailor (ed.). pp. 745-754, John Wiley & Sons, New York, 1982. 30 I. Dutra, A. C, and Vianna, R. de 0.: Atmospheric corrosion testing in Brazil, in Atlllospheric Corrosion,
W. H. Ailor (ed.). pp. 755-774. John Wiley & Sons, New York, 1982. 302. Biestck, T: Testing clectrodeposited coatings in tropical China, in Atmospheric Corrosion, W. H. Ailor
(ed.), pp. 775-785, John Wiley & Sons. New York, 1982.
303. Hakkarainen, T, and Ylasaari. S.: Atmospheric corrosion testing in Finland, in Atlllospheric Corrosion, W. H. Ailor (ed.), pp. 787-795, John Wiley & Sons, New York, 1982.
304. Atteraas. L., and Haagenrud, S.: Atmospheric corrosion in Norway. in Atmwpheric Corrosion. W. H.
Ailor (cd.), pp. 873-891. John Wiley & Sons, New York, 1982. 305. Callaghan, B. G.: Atmospheric corrosion testing in southern Africa, At11lospheric Corrosion, W. H. Ailor
(ed.). pp. 893-912. John Wiley & Sons, New York, 1982. 306. Feliu, S .. and Morcillo. M.: Atmospheric corrosion testing in Spain, in Atmospheric Corrosion. W. H.
Ailor (cd.), pp. 9 I 3-92 I, John Wiley & Sons. New York, 1982. 307. Mikhailovski, Y. N., and Strekalov. P Y: Atmospheric corrosion tests in the USSR, in Atmospheric
Corrosion, W. H. Ailor (cd.). pp. 923-942. John Wiley & Sons. New York. 1982. 308. Knotkova, D., Barton. K., and Cerny, M.: Atmospheric corrosion testing in Czechoslovakia, in Atmos
pheric Corrosion. W. H. Ailor (cd.), pp. 991- 1014, John Wiley & Sons. New York. 1982. 309. Tomlinson, W. 1., and Marsh, P. 1.: Corrosion of iron, steel, zinc, nickel andelectroless nickel in concrete.
J. Matn: Sci. Lett. 7. 808-810. 1988. 3 I O. Apostolos. J. A., Parks, D. M .. and CareJlo. R. A.: Cathodic protection of reinforced concrete using
metallized zinc. Mater. Perform. 26(2), 22-28,1987. 3 I I. Catino. J. W.: The polarization and corrosion characterization of Zn and modified Zn in concentrated
alkali metal hydroxide electrolyte: The effect of a Zn oxide/hydroxide surface, Ph. D. Thesis, Lehigh
University, 1988. 3 I 2. Suzuki. I.: Corrosion-Resistant Coatings Technology, Corrosion Technology Series, PA. Schweitzer
(ed.), Marcel Dekker. New York, 1989. 3 I 3. Serra, E. T, and Mannheimer, W. A.: On the estimation of the corrosion rates of metals in soils by
electrochemical measurements, in Underground Corrosion, STP 741, pp. 1 I 1-122, American Society
for Testing and Materials. Philadelphia, 198 I. 314. Miller. F. P., Foss. J. E., and Wolf, D. C: Soil surveys: Their synthesis, confidence limits, and utilization
for corrosion assessment of soil, in Underground Corrosion, STP 74 I, pp. 3-23, American Society for
Testing and Materials, Philadelphia, 198 I. 3 I 5. Guttman, H.: Effects of atmospheric factors on the corrosion of rolled zinc, in Metal Corrosion in the
Atmosphere, STP 435, pp. 223-239, American Society for Testing and Materials, Philadelphia, 1968.
316. Dunbar. S. R.: Effect of one per cent copper addition on the atmospheric corrosion of rolled zinc, in Metal Corrosion in the Atmosphere, STP435. pp. 308-325, American Society for Testing and Materials, Philadelphia, 1968.
317. Baboian, R. (cd.): Automotive Corrosion by Deicing Salts. National Association of Corrosion Engineers, Houston, 1981.
3 I 8. Geduld. H.: Zinc Plming, ASM International. Metals Park, Ohio, 1988.
422 REFERENCES
319. International Lead Zinc Research Organization: A Comparison between Hot Dip Galvanized and Fusion
Bonded Epoxy Coatings for Steel Reinforcement in Concrete. ILZRO Project No. ZE-341. Annual Report, Research Triangle Park, North Carolina, 1988.
320. Tomashov, N. D., and Chernova, G. P.: Passivity and Protection of Metals against Corrosion. Plenum Press, New York, 1967.
321. Waber,1. T.: Analysis of size effects in corrosion processes, in Localized Corrosion, pp. 221-237, National Association of Corrosion Engineers, Houston, 1974.
322. Chen, Z. W, Sharp, R M., and Gregory, 1. T.: Fe-AI-Zn ternary phase diagram at 450 C, Mater. Sci. Techno!. 6, 1173-1176, 1990.
323. Albalat, R, Gomez, E., Muller, J., Pregonas, J .• Sarret, M., and Valles, E.: Zinc-nickel coatings: Relationship between additives and deposit properties, 1. Appl. Electrochem. 21, 44-49, 1991.
324. Djoufac Woumfo, E., and Vittori, 0.: Electrochemical behaviour of a zinc electrode in 8 M KOH under
pulsed potential loading, 1. Appl. Electrochem. 21,77-83, 1991. 325. Beccaria, A. M.: Zinc layer characterization on galvanized steel by chemical methods, Corrosion 46,
906-912, 1990. 326. Tomov, I., Cvetkova, c.. Velinov. v.. Riesenkampf. A., and Pawlik, B.: Factors influencing the
preferential orientations in zinc coatings electrodeposited from chloride baths. 1. Appl. Electrochem. 19, 377-382, 1989.
327. Faita, G., Mazza, E, and Bianchi, G.: Role of water and ionic solvation in localized corrosion
phenomena, in Localized Corrosion, pp. 34-44, National Association of Corrosion Engineers, Houston,
1974. 328. Newman, J.: Mass transport and potential distribution in the geometries of localized corrosion, in
Localized Corrosion, pp. 45-61, National Association of Corrosion Engineers, Houston, 1974. 329. Fujii, C. T.: A review: Macro-cells for the study of solution chemistry and electrochemistry in localized
corrosion, in Localized Corrosion, pp. 144-150, National Association of Corrosion Engineers, Houston,
1974. 330. Selvam, M., and Guruviah, S.: Corrosion of electrodeposited zinc-manganese alloys, Bull. Electrochem.
6(5),485-486. 1990. 331. Graedel, T. E.: Corrosion mechanisms for zinc exposed to the atmosphere. 1. Electrochem. Soc. 136,
193-203,1989. 332. Townsend, H. E.: On the effects of magnesium on the atmospheric corrosion resistance of galvanized
sheet steel, Corrosion 44. 229-230, 1988. 333. Evans, U. R: Factors deciding between corrosion and protective film formation. The 1st International
Congress on Metallic Corrosion. London, April 1961, pp. 3-9. 334. Lorking, K E. and Mayne, J. E. 0.: Some observations on the corrosion of zinc. The 1st International
Congress on Metallic Corrosion, London, April 1961, pp. 144-146. 335. Cismaru, D., and Cismaru, G. D.: Zinc oxidation at high temperatures. Effect of electric field on zinc
oxidation, The 1st International Congress on Metallic Corrosion, London, April 1961. pp. 237-239. 336. Rosenfeld, I. L.: Atmospheric corrosion of metals. Some questions of theory, The 1st International
Congress on Metallic Corrosion, London, April 1961, pp. 243-253. 337. Neville, R J., and de Souza, K M.: Electrogalvanized or hot dip galvanized-results of five years
undervehicle corrosion testing, SAE Technical Paper No. 862010, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, December 8-10, 1986.
338. Stephens, M. L., Davidson, D. D., Soreide, L. E., and Shaffer, R 1.: Developing the chipping corrosion
test, SAE Technical Paper No. 862013, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, December 8-10, 1986.
339. Satoh, H., Shimogori, K, Nishimoto, H., Miki, K, Ikeda, K, Iwai, M., Sakai, H., and Nomura, S.: Analysis of perforation corrosion of cold-rolled and galvanized steel sheets by extreme-value statistics, SAE Technical Paper No. Technical Paper No. 862018, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, 8-10, 1986.
340. Memmi, M., Ferrari, v., Arrigoni, G., Sarracino, M., Moelzer, H., and Ulivieri, L.: A qualitative and
quantitative evaluation of Zn + Cr-CrOx multilayer coating compared to other coated steel sheets, SAE
Technical Paper No. 862028, Society of Automotive Engineers Automotive Corrosion and Prevention Conference. Dearborn, Michigan, December 8-10, 1986.
REFERENCES 423
341. Mohri, T, Tsugawa, S., Kobayashi, S .. Ichida, T, and Kurosawa, M.: Newly developed organic
composite-coated steel sheet with bake-hardenability, SAE Technical Paper No. 862030. Society of
Automotive Engineers Automotive Conosion and Prevention Conference, Dearborn. Michigan Decem
ber 8-10, 1986. 342. Tator, K. B.: How coatings protect and why they fail, Mater. Perfimn. 17(11),41 -44, 1978. 343. Leidheiser, H.: Conosion of painted metals-a review. Corrosion 38, 374-383. 1982. 344. Barrett, L. D.: Preparation of metals by phosphating, Mater. Prot. 3(7),20-23,1964. 345. Munger, C. G.: Inorganic zinc coatings past, present, and future, Mater. PetjiJrm. 14(5),25-29, 1975. 346. Robbins, D. 1., Smith, D. M., and Roberts, T R.: Corrosion testing and behavior of zinc and zinc alloy
coated autobody sheet steels. ASM Corrosion-Resistant Automotive Sheet Steels Conference, Chicago,
September 24-30, 1988, pp. 1-14. 347. Lin, K. L., Yang, C. E, and Lee, J. T: Correlation of microstructure with eonosion and electrochemical
behavior of the batch-type hot-dip AI-Zn coatings. Part I. Zn and 5% AI-Zn coatings, Corrosion 47, 9-16,1991.
348. Lin, K. L., Yang, C. E, and Lee, J. T.: OllTelation of microstructure with conosion and electrochemical
behaviors of the batch-type hot-dip AI-Zn coatings. Part II. 55% AI-Zn coating, Corrosion 47, 17-23,
1991. 349. Watanabe, T, Kubota, T, Yamashita, M .. Urakawa, T, and Sagiyama, M.: Con'osion-resistant precoated
steel sheets for automotive body panels, ASM Conosion-Resistant Automotive Sheet Steels Conference,
Chicago, September 24-30, 1988, pp. 15-20. 350. Neville, R. L and de Souza, K. M.: Corrosion performance of zinc and zinc alloy coated steels exposed
to deicing salt spray under vehicles, ASM Conosion-Resistant Automotive Sheet Steels Conference,
Chicago, September 24-30, 1988, pp. 2 I -30. 351. Yasuda, A., Umino, S., Kyono, K., and Yamato, K.: Cosmetic conosion ofZn alloy coated sheet steels,
ASM Conosion-Resistant Automotive Sheet Steels Conference, Chicago, September 24-30,1988, pp. 31-37.
352. Yasuda, A., Koumura, H., Yamato, K., Onizawa, K., and Ota, H.: Development of high performance
galvannealed steel sheet for outer panels of automotives, ASM Conosion-Resistam Automotive Sheet
Steels Conference, Chicago. September 24-30, 1988, pp. 45-53. 353. Lynch, R. E: Hot-dip galvanizing alloys, 1. Met. 39(8), 39-41. 1987. 354. Scholl, p, and Prentice, G.: Photocurrcnt response of the anodic film on zinc electrodes in alkaline
elcctrolyte, Electrochemical Society Extended Abstracts, Vol. 91-1, Abstract No. 75, p. I J 3. 1991. 355. Davies, D. E., and Lotlikar, M. M.: Passivation and pilling characteristics of zinc, Br. Corros. 1. L
149-155, 1966. 356. Mansfeld, E. and Kenkel, J. V: Galvanic conosion of Al alloys. Part III. The effect of area ratio, Corm.l.
Sci. 15, 239-250, 1975. 357. Romanoff, M.: Underground Conosion, U.S. National Bureau of Standards Circular 579. 1957. 358. Rachlot, B.: Sacrificial anode aJloys-Their specifications and uses, Proceedings of the 2nd Interna
tional Congress on Metallic Conosion, New York, March 11-15, 1963, pp. 285-289. 359. Bianchi, G., Mazza, E, and Trasatti, S.: Mechanism offormation of black oxide films on zinc, aluminum
and titanium in alkaline aqueous solutions, Proceedings of the 2nd International Congress on Metallic
Conosion, New York, March 11-15, 1963, pp. 905-915 360. Chou, K. c., and Jagannathan, V: Corrosion and powdering resistance of galvanneal for automotive
applications, National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati, Ohio,
March II-IS, 1991,PaperNo.375. 361. Mori, K., Miyawaki, T' and Matsushima, Y.: Effect of zinc composite coating on conosion resistance
at high temperature, National Association of Con os ion Engineers Conosion '91 Conference, Cincinnati,
Ohio, March I 1-15, 1991, Paper No. 40 I. 362. Wang, Y. M., and Radovic, D.: Porosity measuremcnts of phosphate coatings by electrochemical
impedance spectroscopy (EIS) method, National Association of Corrosion Engineers Corrosion '91
Conference, Cincinnati, Ohio, March I J -15, 1991, Paper No. 419. 363. Granata, R. D.: Mechanisms of coatings disbondment, National Association of Conosion Engineers
Corrosion '91 Conference, Cincinnati, Ohio, March 11-15, 1991, Paper No. 382.
424 REFERENCES
364. Massinon, D., and Thierry, D.: Rate controlling factors in the cosmetic corrosion of coated steels, National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati, Ohio, March 11-15,1991, Paper No. 574.
365. Chang, J. c., and Wei, H. H.: Electrochemical and Mossbauer studies of the corrosion behavior of electrodeposited fe-Zn alloys on steel, Corros. Sci. 30, 831-837,1990.
366. Wippermann, K, Schultze, 1. W, Kessel, R., and Penninger, 1.: The inhibition of zinc corrosion by bisaminotriazole and other triazole derivatives, Corros. Sci. 32, 205-230, 1991.
367. Kirihara, S., and Ohshima, K (Kobe Steel, Ltd., Japan): Method for anticorrosive treatment of galvanized steel, U.S. Patent 4385940, May 31, 1983.
368. Sriveeraraghaven, S., Krishnan, R. M., and Natarajan, S. R.: Corrosion behavior of zinc and cadmium deposits obtained from different baths, Met. Finish. 89(8),51-53, 1991.
369. Cremaschi, P., Tantardini, G. E, Muilu, 1., and Pakkanen, T. A.: Adsorption of hydrogen on zinc-calculation of potential energy surface and dynamics, Vacuum 41( 1-3), 260-264, 1990.
370. Girin, O. B., and Panasenko, S. A.: Effect of the texture of electrolytic zinc coatings on their corrosion resistance, Zashch. Met. 25(3),480-482, 1989 [in English].
371. Novoa, X. R., Izquierdo, M., Merino, P., and Espada, L.: Electrochemical impedance spectroscopy and zero resistance ammeters (ZRA) as tools for studying the behaviour of zinc-rich inorganic coatings, Mater. Sci. Forum 44-45, 223-234, 1989.
372. Fiaud, c., Vastra, I., and Tribollet, B.: Application of the electrohydrodynamical impedance method to the study of corrosion inhibitors, Mater. Sci. Forum 44-45, 205-212, 1989.
373. Juttner, K., and Lorenz, W. J.: Electrochemical impedance spectropscopy (EIS) of corrosion processes on inhomogeneous surfaces, Mater. Sci. Forum 44-45, 191-204, 1989.
374. Guillaume, R., Keddam, M., and Takenouti, H.: In-situ electrochemical investigations of a scratched galvanized steel during a climatic test, Mater. Sci. Forum 44-45, 109-122, 1989.
375. Lay, D. E., and Eckles, W E.: The fundamentals of zinc/cobalt, Plating Suif. Finish. 77(10), 10-14,
1990. 376. Sjoukes, E: Chemical reactions in fluxes for hot dip galvanizing, Anti-Corrosion 1990(April), 12-14. 377. Gu, M., and Marder, A. R.: A new method to fabricate single-phase Zn-Fe coating, Plating Suif. Finish.
78(1),77-79,1991. 378. Arup, H.: Galvanized steel in concrete, Mater. Perform. 18(4),41-44,1979. 379. Hofsoy, A., and Gukild, I.: Bond studies on hot dip galvanized reinforcement in concrete, Amer. Conc.
Inst. 1. 66(3), 174-184, 1969. 380. Cornet, I., and Bresler, 8.: Corrosion of steel in prestressed concrete, Mater: Prot. 4(11), 35-37, 1965. 381. O'Donnell, A. 1.: Comparison of the sacrificial protection afforded by continuous galvanised coatings,
Corras. Coatings S. Afr. 16(10),2,4-6, 1990. 382. Imagawa, H., Matuno, K, and Konishi, T.: Zinc spraying and corrosion cracking prevention for liquid
ammonia tanks, Corros. Eng. 38, 353-361, 1989. 383. Mourad, M. Y., Kandell, A. Y., and Elgaber, A. S.: Effect of surface preparation on the corrosion
behaviour of zinc in sodium sulphate solution, Indian 1. Technol. 28, 612-614, 1990. 384. Akhter, R., Watkins, K G., and Steen, W. M.: Electrochemical characterisation of laser welded zinc
coated steel, Mater: Lett. 9, 550-556, 1990. 385. Kothari, N. C.: Corrosion ofzinc coated steel in simulated industrial environment, Corrosion-Air, Sea,
Soil Conference, Auckland, New Zealand, Nov. 19-23, 1990, Paper No. 25. 386. Singh, W. R., and Singh, R. N.: Corrosion of Zn in propylene carbonate: Role of water, H+ and O2, 1.
Electrochem. Soc. India 39, 104-106, 1990. 387. Helwig, L. E., and Swan, 1. D.: Use of spot-test reagents for detecting chromates on hot-dip galvanized
surfaces, Met. Finish. 80(9), 37-40, 1982. 388. Yeomans, S. R.: Comparative studies of galvanized and epoxy coated steel reinforcement in concrete,
The 2nd CANMET/ ACI International Conference on Durability of Concrete, Montreal, Quebec, August 1991.
389. Ravindran, V., and Muralidharan, V. S.: Corrosion of zinc in NH4CI solution, Bull. Electrochem. 6(2), 237-238, 1990.
390. Wilde, B. E., and Budinski, M. K (Ohio State University): Galvanic protection of steel with zinc alloys, U.S.Patent4917966,AprilI7,1990.
REFERENCES 425
391. Verberne, W. M. 1. C. (OMI International Corporation, Michigan): Passivation. U.S. Patent 4776898,
October II, 1988. 392. Kressler, R 1., Powers, R G.:and Lasa, I. R: Cathodic protection using scrap and recycled materials,
Mater. Pelform. 30(6),29-31, 1991. 393. Cheng, T P, Lee, 1. T, Lin. K. L., and Tsai, W. T: Electrochemical behavior of galvanized AI-Zn
coatings in saturated Ca(OHh solution, Corrosion 47. 436-442, 1991.
394. Sjoukes, F: Brown staining of hot dip galvanised coatings in atmospheric cOlTosion, Br. Corros. l. 26, 103-107,1991.
395. Allen, c.: Corrosion of galvanised steel in synthetic mine waters, Br. Corros. l. 26, 93-101, 1991. 396. Smith, C. 1. E.: Research into the control of corrosion on aircrafts, Aircr. EnK. 1990(August), 15. 397. Bird, C. E.: Bond of galvanized steel reinforcement in concrete, Nature (London) 194, 798. 1962. 398. Sebisty, 1. 1.: Continuous-strip galvanized coatings at elevated temperatures. Electrochem. Technol. 6.
330-336,1968. 399. Cook, T.: Myths and truths in hot dip galvanizing, Met. Finish. 89(6),107-108,1991. 400. Kenworthy, L.. and Smith, M. D.: Corrosion of galvanized coatings and zinc by waters containing frcc
carbon dioxide. l. Illst. Mel. 1944,463-489. 401. Evans, U. R.: Pitting and cracking, Chem. Ind. 1956, 1291-1297.
402. Evans, U. R .. and Davies, D. E.: The pitting of zinc by distilled water and dilute solutions. Corrosio/l 8(5),165-170,1952.
403. Thornhill, R S., and Evans, U. R.: The electrochemistry of the corrosion of partly immersed zinc, 1. Chem. Soc. 1938,2109-2114.
404. Feitknecht, W.: Studies on the influence of chemical factors on the corrosion of metals, Chem.lnd. 1959, 1102-1109.
405. Davydov, A. D., Zhukova, T B., and Engel'gardt, G. R.: Concentration changes in the solution layer
next to the anode, and the maximum currents of electrochemical zinc dissolution in alkalies, Eleklrokhimiva 26, 1207-1209, 1990 [in Englishl.
406. Munier, G. B .. Psota, L. A., Reagor, B. T.. Russiello, B., and Sinclair, 1. D.: Contamination of electronic equipment after an extended urban exposure, 1. Electrochem. Soc. 127,265-2 fL, 1980.
407. Pushpavanam. M., Natarajan. S. R, Balakrishnan, K., and Sharma, L. R.: Corrosion behaviour of electrodeposited zinc-nickel alloys, l. Appl. Electrochem. 21,642-645,1991.
408. Townsend, H. E., Allegra, L., Dutton. R. J., and Kriner, S. A.: Hot-dip coated sheet steels-a review. Maler. PerjcJI"In. 25(8), 36-46, 1986.
409. Hoxeng, R B.: Electrochemical behavior of zinc and steel in aqueous media. Part II, Cormsion 6(9). 308-312,1950.
410. Hoxeng, R. B., and Prutton, C. F: Electrochemical behavior of zinc and steel in aqueous media, Corrosion 5(10), 330-338,1949.
411. Kobayashi, N., Yamasaki, Y., and Inakazu, N.: Effects of cold rolling on corrosion rate of zinc in acid solution, 1. lpn.lnst. Mel. 53,1255-1262,1989.
412. Cox, G. L.: Effect of temperature on the cotTosion of zinc, Ind. Eng. Chem. 23,902-904. 1931. 4\3. Trabanelli. G.: Inhibitors-An old remedy for a new challenge, Corrosion 47, 410-419. 1991. 414. Sizelove. R R: Developments in alkaline zinc-nickel alloy plating, PlatinK SUli Finish. 78(3),26-30.
1991. 41S. Munn. R S., and Devereux. O. F: Numerical modeling and solution of galvanic corrosion systems. Part
II. Finite-element formulation and descriptive examples, Corrosion 47, 61 ~-634. 1991. 416. Hinton, B. R. W.: Corrosion prevention and chromates: the end of an era?, Mel. Finish. 89( 10). IS-20.
1991. 417. Yoshioka, K .. Watanabe, K., and Kato. K. (Kawasaki Steel Corp., Japan): Zn-coated stainless steel
welded pipe. U.S. Patent 4885215. December 5, 1989. 418. Rocha, L. A .. and Barbosa, M. A.: Microstructure, growth kinetics, and corrosion resistance of hot-dip
galvanize\! Zn-S% AI coatings, Corrosion 47, 536-541, 1991. 419. Dean, S. W.: Corrosion testing of metals under natural atmospheric conditions, in Corrosion Testing and
Evaluation: Silver Anniversary Volume. STP 1000, pp. 163-176, American Society for Testing and Materials, Philadelphia, 1990.
420. Hinton, B. R. W.: Corrosion prevention and chromates. The end of an era?, Mel. Finish. 89(9),55-61. 1991.
426 REFERENCES
421. Richards, C. E.: The atmospheric corrosion of galvanised iron wire and its bearing on specification testing, J.lron Steellnst. 137, l27p-176p, 1938.
422. Scholl, P., Shan, X., Bonham, D., and Prentice, G. A.: Photoelectrochemical characterization of the
anodic film on zinc in KOH solution, J. Electrochem. Soc. 138,895-899, 1991. 423. Burleigh, T. D.: Anodic photocurrents and corrosion currents on passive and active-passive metals,
Corrosion 45, 464-472, 1989. 424. Heitz, E.: Corrosion of metals in organic solvents, in Advances in Corrosion Science and Technology,
Vol. 4, M. G. Fontana and R W. Stachle (eds.), pp. 149-243, Plenum, New York, 1977. 425. Adaniya, T.: The development of corrosion-resistant composite zinc-coated steel sheet, Sheet Met.
Ind. Int. 1978(December) 73-79. 426. Foster, G. R, Lee, S. G., and Myers, 1. R: Stress corrosion of eta-phase, hot-dip-zinc alloy in potable-hot
water, Corrosion 30, 239-241,1974. 427. Brossa, A., Maja, M., Penazzi, N., Farnia, G., Sandona, G., and Marcuzzi, E: Inhibition of zinc corrosion
in chloride media: Green piles, Proceedings of the 7th European Symposium on Corrosion Inhibitors,
Ann. Univ. Ferrara. N. S .• Sez. V, 1990(Suppl. No.9), 711-724. 428. Gronostajski. J., Ali, W. 1., and Ghattas, M. S.: The effect of deformation on the corrosion resistance of
coated steel sheets, J. Mater. Process. Technol. 23, 21-28, 1990. 429. Brown, W. N., and Mackowiak, 1.: A study of the kinetics of interaction between Fe(s) and Zn(l) in the
temperature range 570-740 C. Corros. Sci. 5, 779-785. 1965. 430. Mackowiak, 1., and Short. N. R: The effect of pressure on the reaction between Fe(s)-Zn(l) at 501 and
554 c, Corros. Sci. 16,519-528, 1976. 431. Short, N. R., and Mackowiak, 1.: The effect of pressure on the reactions between Fe(s)-Zn: 1.5% AI(I)
at 501 C, Corros. Sci. 17.397-404,1977. 432. Pereira. D., Scantlebury, 1. D., Ferreira, M. G. S., and Almeida, M. E.: The application of electrochemical
measurements to the study and behaviour of zinc-rich coatings, Corros. Sci. 30. 1135-1147, 1990. 433. Hadden, S. E.: Effect of annealing on the resistance of galvanized steel to atmospheric corrosion, J.lron
Steellnst. 1952(June), 121-127. 434. Campbell, H. S., Stanners, 1. E, and Watkins, K. 0.: Effect of heat treatment on the protective properties
of zinc coatings on steel, J. Iron Steellnst. 1965(March), 248-251. 435. Rajagopalan, K. S., and Ramaseshan. G.: Relative corrodibility of zinc and steel in unpolluted
atmospheres, J. Appl. Chern. 10, 493-496, 1960. 436. Anderson, E. A.: Zinc in marine environments, Corrosion 15, 409t-4121. 1959. 437. Gilbert, P. T., and Hadden, S. E.: White rust formation on zinc, J. Inst. Met. 78(Part 1),47-70, 1950. 438. Mansfeld, E: The effect of temperature on the corrosion rate of Zn of different purity in 6N KOH. Corros.
Sci. 11,557-559, 1971. 439. Blickwede, D.l.: 55% AI-Zn-alloy-coated sheet steel, Iron Steel 1980(7), 821-834. 440. Mathieu, S., and Fenaille, B.: Characterization of zinc-iron and tin-iron coatings by coulometric method
associated with x-ray diffraction and glow discharge optical spectrometry, Methodes d'Investigation des Metaux Conference, France, 1980.
441. Katz, W.: The structure of zinc coatings on the basis of electrochemical dissolutions, Arch. Eisenhiittenwes. 25(7/8), 307-314, 1954 [in GermanJ.
442. Chang, S.: Characterization and development of Zn-Fe alloyed coating layer, in Zinc-Based Steel Coating Systems: Metallurgy and Performance. G. Krauss and D. K. Matlock (eds.), pp. 319-330, The
Minerals, Metals and Materials Society, Warrendale, Pennsylvania, 1990. 443. Landriault, 1. P., and Harrison, E w.: A comparison of thermally alloyed Zn-Fe coatings produced by
mechanical wiping to those produced by post-coating annealing, Proceedings of the 25th Canadian
Institute of Mining, Metallurgy, and Petroleum Conference, Toronto, Ontario, August 1986, pp. 71-78. 444. Imagawa, H., Matuno, K., and Konishi, T.: Prevention of corrosion cracking in liquid ammonia tanks
by zinc spraying, Boshoku Gijutsu 38(6), 321-326, 1989. 445. Gmytryk, M., and Sedzimir, 1.: Corrosion of Zn in deaerated sulphate solutions at different pH values,
Corros. Sci. 7,683-695, 1967. 446. Abayarathna, D., Hale, E. B., O'Keefe, T. J., Wang, Y. M., and Radovic, D.: Effects of sample orientation
on the corrosion of zinc in ammonium sulfate and sodium hydroxide solutions, Corros. Sci. 32, 755-768,
1991.
REFERENCES 427
447. Weast, R. C: Zinc anodes for corrosion protection of domestic hot water storage tanks. Proceedings of the 7th International Conference on Hot Dip Galvanizing, Paris, June 1964, pp. 487-507.
448. TOITI~s-Villasenor, G .. Ugalde, A.. Hernandez. L.. and Singer. I. L.: Water vapour corrosion of lamellar. superplastic and cast dendritic Zn-2IAI alloy. Corms. Sci. 24. 159-166. 1984.
449. Trabanelli. G .. Zucchi. E. Brunoro. G .. and Gilli. G.: Characterization of the corrosion or anodic
oxidation products on zinc. Electrodeposition SUlj: Treat. 3. 129-138. 1975. 450. Stuart. N .• and Evans. U. R: The effect of zinc on the corrosion-fatigue life of steel. 1. [ron Steel [n.H.
147.131-144.1943. 451. Stamatakis. P. Palmer. 8. R. Salzman. G. C. Bohren. C F., and Allen. T 8.: Optimum particle size of
titanium dioxide and zinc oxide for attenuation of ultraviolet radiation. 1. Coatings Teclmol. 62. 95-98.
1990. 452. Solorzano. I. G .. Purdy. G. R .. and Weatherly, G. C: Studies of the initiation. growth and dissolution of
the discontinuous precipitation product in aluminum-zinc alloys. Acta Metall. 32. 1709-1717. 1984. 453. Singh. R. N .. Bahadur. L .. and Singh. P.: The corrosion and electrochemical behaviour of zmc in binary
mixtures of dimethylformamide and water. Corms. Sci. 27.561-566.1987. 454. Simm. D. W.: The corrosion of zinc in mortar and its relevance to wall tic COITosion. Corms. Prevo
ContmI1984(December). 5-10.
455. Pettinger. B .. Schoppel. H.-R .. and Gerischer. H.: Tunnelling processes at highly doped ZnO electrodes in contact with aqueous electrolytes. Part I. Electron exchange with the conduction band. Ber. BUIlsellges. 78. 450-455. 1974.
456. Van Craen. M .. Haemers. G .• and Adams. E: Sims analysis of the atmospheric corrosion of a 55% AI-Zn coated steel wire. [nt. 1. Mass Spectrol1l. [on Phvs. 46,531-534, 1983.
457. von Fraunhofer. 1. A .. and Lubinski. A. T: Polarity reversal in the zinc-mild steel couple. Corms. Sci. 14. 225-232. 1974.
458. Gilbert. P T.: The nature of zinc corrosion products. 1. Electrochem. Soc. 99. 16-21. 1952. 459. Girin. O. B .. and Panasenko. S. A.: Effect of the texture of electrolytic zinc coatings on their corrosion
resistance. Zashch. Met. 25(3). 480-482. 1989 I in English]. 460. Gomes, W. P .. Freund. T. and Morrison. S. R: Chemical reactions involving holes at the zinc oxide
single crystal anode. 1. Electrochem. Soc. 115. 818-823. 1968. 461. Shih. Y. R.: Investigation of the zinc-iron potential reversal and its application to cOITosion in domestic
hot water systems. Ph.D. Thesis, San Jose State University. 1989. 462. Kotnik. L. J.: An investigation of the properties of zinc COlTosion products. Ph.D. Thesis. Casc Institute
of Technology. 1960. 463. Biallozor, S .. and Bandura, E. T: On electrochemical behaviour of zinc in organic solvents. Elcctrochim.
Acta 32. 891-894. 1987. 464. Perkins, 1.. and Bornholdt. R. A.: The corrosion product morphology found on sacrificial zinc anodes.
Corros. Sci. 17.377-384. 1977. 465. McDonald. R. D.: Steel embrittlement problems associated with hot dip galvanizing-causes. mecha
nisms. controls. and selected references. Mate!: Perfonn. 14( 1). 31-37. 1975. 466. Keogh. T J.: The influence of pickling on the embrittlement of mild steel. Met. AlislI: 1972(August).
239-244. 467. Johnson. W. H.: On some remarkable changes produced in iron and steel by the action of hydrogen and
acids. Pmc. R. Soc. London 23,1875. 468. Gonzalez. J. A .. and Andrade. C: Effect of carbonation. chlorides and relative ambient humidity on the
corrosion of galvanized rebars embedded in concrete. Br. Corros. 1. 17,21-28. 1982. 469. Carson. J. A. H.: Zinc as a self-regulating galvanic anode for ship hulls. Corrosion 16(10).99-104.
1960. 470. Carson. 1. A. H .. Phillips. W. L. M .• and Wellington. 1. R.: A laboratory evaluation of zinc anodes in sea
water, CorrosioI116(4). 107-113. 1960. 471. Kurr. G. W.: Zinc anodes-underground uses for cathodic protection and grounding. Mater. Perform.
18(4),34-41.1979. 472. Onishi. M., Wakamatsu. Y, and Miura. H.: Formation and growth kinetics of intermediate phases in
Fe-Zn diffusion couples, Trans. lpn. Inst. Met. 15,331-337, 1974
473. Zinc Institute. Inc .. and Zinc Development Association: Cathodic protection of pipelines with zinc anodes. Pipei' Pipelines [Ill. 1975(August). 23-27.
428 REFERENCES
474. Matsumoto, Y., Yoshikawa, T., and Sato, E.: Dependence of the band bending of the oxide semiconduc
tors on pH, J. Electrochem. Soc. 136,1389-1391,1989. 475. Justice, D. D., and Hurd, R. M.: Electrochemical dissolution of ZnO single crystals, J. Electrochem.
Soc. 118,1417-1420,1971. 476. Craig, B. D.: Fundamental Aspects of Corrosion Films in Corrosion Science, Plenum Press, New York,
1991. 477. Bindra, P., Gerischer, H., and Kolb, D. M.: Electrolytic deposition of thin metal films on semiconductor
substrates, J. Electrochem. Soc. 124, 1012-1018, 1977. 478. Dirkse, T. P., and Shoemaker, R: Double layer capacitance of zinc electrodes in KOH solutions, J.
Electrochem. Soc. 115, 784-786, 1968 479. Gomes, W. P., Freund, T., and Morrison, S. R.: Chemical reactions involving holes at the zinc oxide
single crystal anode, J. Electrochem. Soc. 115, 818-823,1968. 480. Knotkova-Cermakova, D., and V1ckova. J.: Corrosive effect of plastics. rubber and wood on metals in
confined spaces, Br. Corros. J. 6. 17-22. 1971 481. De Pauli, C. P.. Derosa. O. A. H., and Giordano, M. c.: Zinc dissolution and passivation in buffered
phosphate solutions. Part I. A comparative study with sodium hydroxide solutions. J. EleCfroallal. Chem. 86.335-348, 1978.
482. Pirnat, A., Meszaros, L.. and Lengyel, B.: Study of the formation ofchromate layer on zinc by impedance
technique, Electrochim. Acta 35, 515-522. 1990. 483. Juttner. K.: Electochemical impedance spectroscopy (ElS) of corrosion processes on inhomogeneous
surfaces. Electrochim. Acta 35.1501-1508,1990. 484. Vi1che. J. R. Juttner. K., Lorenz, W. 1., Kautek, w.. Paatsch, w., Dean, M. H., and Stimming, U.:
Semiconductor properties of passive films on Zn, Zn-Co, and Zn-Ni substrates, J. Electrochem. Soc. 136,3773-3778,1989.
485. Allegra, L., and Townsend, H. E.: Undervehicle corrosion resistance of 55% AI-Zn coated steel sheet,
Met. Prog. 119(4),33-35, 1981. 486. Uchiyama, Y.: Corrosion behaviour of zinc-aluminium alloys, Corros. Eng. 39, 297-307,1990. 487. Srivastava, S. K., Srivastava, S., Shukla, R, and Srivastava, S. c.: Effect of addition agents on Zn-Ni-Ti
alloy deposition from a sulphate bath, Indian J. Technol. 27. 564-568, 1989. 488. Menzies, I. A., Marshall, G. w., Gearey, D., and Griffin, G. B.: Some aspects of the mechanism of the
anodic dissolution of zinc in sulfamic acid-formamide solutions, J. Electrochem. Soc. 117, 849-854,
1970. 489. Radeker, w., Peters, F. K., and Friehe, w.: The effect of alloy additions on the properties of hot galvanized
coatings, Proceedings of the 6th International Conference on Hot Dip Galvanizing. Zinc Development
Association, London, England, June 1961.238-264. 490. Arsenault, B., Champagne, B., Lambert, P., and Dallaire. S.: Zinc-nickel coatings for improved
adherence and corrosion resistance, Surf. Coatings Technol. 37, 369-378, 1989. 491. Kim, D. K., and Leidheiser, H.: Chemistry of the surface of hot-dipped galvanized steel and its relation
to paint adherence, Surf. Technol. 5, 379-396, 1977. 492. Graedel, T. E.: Corrosion-related aspects of the chemistry and frequency of occurrence of precipitation,
J. Electrochem. Soc. 133,2476-2482.1986. 493. MacEwan, J. R: Chemical and electrochemical finishes foq:,i.I)c. Consolidated Mining and Smelting
Company of Canada Ltd., Research and Development DiviSIOn, August 1956. 494. Whitaker, M., and Fry, H.: The anodic oxidation of zinc and zinc-aluminium alloys in a sodium
hyroxide-sodium carbonate solution, The British Non-Ferrous Metals Research Association, Report
No. A. 1172, February 1958. 495. Lange. N. A.: Lange's Handbook of Chemistry, J. A. Dean (ed.), 13th ed., McGraw-Hill, New York,
1985. 496. Gubbins, K. E., and Walker, R D.: The solubility and diffusivity of oxygen in electrolytic solutions, J.
Electrochem. Soc. 112,469-471,1965. 497. Roetheli, B. E., Cox, G. L., and Littreal, W. B.: Effect of pH on the corrosion products and corrosion
rate of zinc in oxygenated aqueous solutions, Met. Alloys 3(3), 73-76, 1932. 498. Engelbrecht, G. J.: A fundamental study of the influence of aluminium on the white rusting of galvanized
steel, Ph.D. Thesis, Delft Technical College, Republic of South Africa, 1963.
REFERENCES 429
499. McLeod, W .. and Rogers. R. R.: The nature of corrosion of zinc by sulfurous aCid at ordmary
temperatures, CorrositJl1 25. 74-76, 1969. 500. Hronsky, P.: Corrosion behavior of metallic materials in organic media containing hydrogen chloride,
Corrosion 37. 161-170. J 981.
50 I. Porter. F.: Zinc Handbook, Marcel Dekker, New York. 1991. 502. Dean. S. W.: Planning. instrumentation, and evaluation of atmospheric corrosion tests and a review of
ASTM testing. in Atmospheric Corrosion. W. H. Ailor (ed.), pp. 195-216. John Wiley & Sons. New
York, 1982. 503. American Society for Testing and Materials: Standard practice for conducting atmospheric corrosion
test on metals, in Annual Book of'ASTM Standards, Vol. 03.02. No. G50-76. pp. 192-196, 1989.
504. American Society for Testing and Materials: Standard practice for laboratory immersion corrosion
testing of metals. in Anllual Book of ASTM Standards. Vol. 03.02, No. G3 J -72, pp. \08-115. 1989. 505. Nakasa. K .. and Suzawa, M.: Liquid-zinc-induced crack propagation in high-strength steels in Proceed
ings oFlhe 1st Inlernational Conference 011 Environment-Induced Cracking of'Metals. October 2-7,
1988, Kohler, Wisconson, National Association of Corrosion Engineers, Houston, 537-540, 1988. 506. Anon.: Panel discussion of inorganic zinc primers at corrosionl75, Male!: Peifonn. 15(5),35-38, 1976.
507. Hinden, E. R: How zinc rich epoxy coating protect structures, Mater. ProI7(4), 38-40, 1968.
508. Okamura, H., and Hisamatsu. Y: Effect of use of galvanized steel on the durability of reinforced
concrete, Mala Peiform. 15(7),43-47, 1976. 509. Haynie. F. H., and Upham. 1. B.: Effects of atmospheric sulfur dioxide on the corrosion of zinc, Male!:
Prot. and Perform. 9(8),35-40. 1970. 510. Bird, C. E.: Corrosion behavior of galvanized sheet in relation to variation in coating thickness, Mate!:
Perform. 16(4), 14-16, 1977. 511. Townsend, H. E .. and Zoccola, J. c.: Atmospheric corrosion resistance of 55% AI-Zn coated sheet steel:
I3 year test results, Mater. Prol. 18(10). 13-20, 1979. 512. Vickers. R.: Commercial hot dip galvanizing of fabricated items, Maler. Pmt. 1( 1).30-39. 1962. 513. Hendry. C. M.: Inorganic zinc rich primers-fact and fancy, Mate!: Perf'orm. 17(5). 19-27. 1978. 514. Dewald. 1. E: The charge and potential distributions at the zinc oxide electrode, Bell S\"-'I. Tech . .1. 39.
615-639. 1960. 515. Doyle. D. P, and Wright. T. E.: Quantitative assessment of atmospheric galvanic corrosion. in Galvanic
Corrosion, STP 978, pp. 161-171, American Society for Testing and Materials, Philadelphia. 1988. 516. Scully. J. R .. and Hack, H. P: Prediction of tube-tubesheet galvanic corrosion using finite clement and
wagner number analyses, in Galvanic Corrosioll. STP 978. pp. 136-157. American Society for Testing
and Materials. Philadelphia. 1988. 517. Escalante. E.: The effect of soil resistivity and soil temperature on the corrosion of galvanically coupled
metals in soil. in Galvanic Corrosion. STP 978. pp. 193-202. American Society for Testing and
Materials. Philadelphia. 1988. 518. Schick. G.: Avoiding galvanic corrosion problems in the telephone cable plant, in Galvanic Corrosion.
STP 9n, pp. 283-290, American Society for Testing and Materials, Philadelphia. 1988. 519. Swamy. R. N.: Resistance to chlorides of galvanized rebars, in Corrosion o/Rein/iJrcCmelll in COllcrete,
C. L. Page. K. W. J. Treadaway. and P B. Bamforth (eds.), pp. 586-600. Elsevier Science Publishing
Co., New York. 1990. 520. Brousseau, R .. Arnott. M .. Dallaire, S .. and Feldman. R: Factors affecting the adhesion on concrete of
arc sprayed zinc, Corrosion 48. 947-952,1992. 521. Geduld. H.: Zinc Plaling, Finishing Publications Ltd., Teddington, Middlesex, England. 1988. 522. Zhang. X. G., and Valeriote. E. M.: Galvanic protection of steel and galvanic corrosion of zinc under
thin layer electrolytes, Corros. Sci. 34, 1957-1972. 1993.
523. Chen. Z. W., Kennon, N. E, Sec, J. B., and Barter. M. A.: Technigalva and other developments in batch
hot-dip galvanizing, .1. MelLlls 44(1),22-26, 1992.
524. Fontana. M. G .. and Greene, N. D.: Corrosion Engineering, 2nd cd., McGraw-Hill. New York. 1978. 525. Cheng. H. B.: Hot dip galvanizing, Galvaniz:ers f(JlInd. Taiwan 20(4),19-30,1992 [in Chinesel. 526. Bothe, A. E., Vilche, 1. R, Juttner, K., Lorenz, W. J., Kautek, W., and Paatsch, W.: An electrochemical
impedance spectroscopy study of passive zinc and low alloyed zinc electrodes in alkaline and neutral
aqueous solutions, Corros. Sci. 32, 621-633, 1991.
430 REFERENCES
527. Morrow, H.: Encyclopedia of Materials Science and Engineering, Vol. 7, M. B. Bever (ed.), MIT Press, Cambridge, Massachusetts, 1986.
528. National Research Council: Zinc, University Park Press, Baltimore, 1979. 529. Mongeon, L., and Barnhurst, R. 1.: Zinc and zinc alloys, in ASM Metals Handbook, 9th ed .. Vol. 9, pp.
488-496, American Society for Metals, Materials Park, Ohio, 1985. 530. Barnhurst, R. 1.: Zinc and zinc alloys, in ASM Metals Handbook, 10th ed., Vol. 2, American Society for
Metals, Materials Park, Ohio, pp. 527-542,1990. 531. Zhang, X. G.: Electrochemical stripping of galvannealed coatings on steel, Corrosion 50, 308-317,
1994. 532. Brodd, R. J., and Leger, V. E.: Zinc, in Encyclopedia of Electrochemistry of the Elements, Vol. V, A. 1.
Bard (ed.), pp. 2-60, Marcel Dekker, New York, 1976. 533. Naybour, R. D.: The effect of electrolyte flow on the morphology of zinc electrodeposited from aqueous
alkaline solution containing zincate ions, J. Electrochem. Soc. 116,520-524, 1969. 534. Baugh, L. M., Tye, E L., and White, N. c.: Corrosion and polarization characteristics of zinc in battery
electrolyte analogues and the effect of amalgamation, J. Appl. Electrochem. 13, 623-635, 1983. 535. Roberts, C. W: Intercrystalline corrosion in cast zinc-aluminium alloys, J. Inst. Met. 81,301-309,
1952-53. 536. Kolberg, T., Rausch, W, Schubach, P., and Wendel, T. (Metallgesellschaft A. G., Germany): Formation
of conversion coatings on surfaces of zinc or zinc alloys, CA Patent 2041892, November 30, 1991. 537. Sereda, P. 1., Croll, S. G., and Slade, H. E: Measurement of the time-of-wetness by moisture sensors
and their calibration, in Atmospheric Corrosion of Metals, STP 767, pp. 267-285, American Society for Testing and Materials, Philadelphia, 1982.
538. American Society for Testing and Materials: Standard practice for measurement of time-of-wetness on surfaces exposed to wetting conditions as in atmospheric corrOSIOn testing, in Annual Book of ASTM Standards, Vol. 03.02, No. G84-89, pp. 353-358,1989.
539. Corrosiveness of various atmospheric test sites as measured by specimens of steel and zinc, in Metal Corrosion in the Atmosphere, STP 435, pp. 360-391, American Society for Testing and Materials, Philadelphia, 1968.
540. Evans, E. L. 1.: Chapter 2.1 in Corrosion, Vol. 1, Corrosion of Metals and Alloys, L. L. Shreir (ed.), George Newnes Ltd., London, 1963.
541. Sereda, P. J.: Weather factors affecting corrosion of metals, in Corrosion in Natural Environments, STP 558, pp. 7-22, American Society for Testing and Materials, Philadelphia, 1974.
542. Brown, P. W., and Masters, L. W.: Factors affecting the corrosion of metals in the atmosphere, in Atmospheric Corrosion, W H. Ailor (ed.), pp. 31-49, John Wiley & Sons, New York, 1982.
543. Copson, H. R.: Report of subcommittee VI, of Committee B-3, on Atmospheric Corrosion, ASTM 58th Annual Meeting, Symposium on Atmospheric Corrosion of Non-Ferrous Metals, STP 175, pp. 3-19, American Society for Testing and Materials, Philadelphia, 1955.
544. Teeple, H. 0.: Atmospheric galvanic corrosion of magnesium coupled to other metals, ASTM 58th Annual Meeting, Symposium on Atmospheric Corrosion of Non-Ferrous Metals, STP 175, pp. 89-115, American Society for Testing and Materials, Philadelphia, 1955.
545. Compton, K. G., and Mendizza, A.: Galvanic couple corrosion studies by means of the threaded bolt and wire test, ASTM 58th Annual Meeting, Symposium on Atmospheric Corrosion of Non-Ferrous Metals, STP 175, pp. 116-125, American Society for Testing and Materials, Philadelphia, 1955.
546. Anderson, E. A.: The atmospheric corrosion of rolled zinc, ASTM 58th Annual Meeting, Symposium on Atmospheric Corrosion of Non-Ferrous Metals, STP 175, pp. 126-134, American Society for Testing and Materials, Philadelphia, 1955.
547. Baker, E. A., and Lee, T. S.: Calibration of atmospheric corrosion test sites, in Atmospheric Corrosion of Metals, ST.P 767, pp. 250-266, American Society for Testing and Materials, Philadelphia, 1982.
548. Haynie, E H.: Evaluation of the effects of microclimate differences on corrosion, in Atmospheric Corrosion of Metals, STP 767, pp. 286-308, American Society for Testing and Materials, Philadelphia, 1982.
549. Showak, W, and Dunbar, S. R.: Effect of I percent copper addition on atmospheric corrosion of rolled zinc after 20 years' exposure, in Atmospheric Corrosion of Metals, STP 767, pp. 135-162, American Society for Testing and Materials, Philadelphia, 1982.
REFERENCES 431
550. Tonini, D. E.: Atmospheric corrosion test results for metallic-coated steel panels exposed in 1960, in
Atmospheric Corrosion of Metals, STP 767, pp. 163~ 185, American Society for Testing and Materials,
Philadelphia, 1982. 551. Baboian, R.: Final report on the ASTM study: atmospheric galvanic corrosion of magnesium coupled
to other metals, in Atmospheric Factors Affecting the Corrosion of Engineering Melllls, STP 646, pp.
17~29, American Society for Testing and Materials, Philadelphia, 1978.
552. Longo, F N., and Durrnann, G. 1.: Corrosion prevention with thermal-sprayed ZInc and aluminum
coatings, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 97 ~ I 14,
American Society for Testing and Matenals. Philadelphia. 1978. 553. Schikorr, G.: Behavior of zinc in the atmosphere, in Corrosion 8ehavior o{Zinc, Vol. I, American Zinc
Institute and the Zinc Development Association, 1965; cited on p. 30 in Zinc: Its Cormsion Resistance, 2nd ed .. International Lead Zinc Research Organization. New York, 1986.
554. Barton, K .. and Beranek. E.: Reaction mechanism of the atmospheric corrosion of metals in moist air
contaminated with sulfur dioxide, Werkst. Korros. 10, 377~383, 1959; cited on p. 27 in Zinc: Its Corrosion Resistance. 2nd ed .. International Lead Zinc Research Organization, New York, 1986.
555. Schikorr, G., and Schikorr, I.: The resistance of zinc to atmospheric corrosion. Z. Metallkd. 35(9). 175~181. 1943 [TranslationJ.
556. Rozenfeld, 1. L.: Atlllospheric Corrosion of Metals, National Association of Corrosion Engineers.
Houston, 1972. 557. Hudson. J. c.: TrailS. Faradav Soc. 25. 177. 129. 558. Drane, C. W.: Chapter 2.2 in Corrosion, Vol. 1, CorrosionofMetalsandAllo.\'s, L. L. Shreir(ed.), George
Newnes Ltd., London, 1963. 559. Anderson, E. A .. and Reinhard. C. E.: Zinc, in The Corrosion Handbook, H. H. Uhlig (ed.), pp. 331 ~346.
John Wiley & Sons. New York. 1948. 560. Schikon', G.: Z. Metallkd. 32. 314.1940; cited on pp. 4 and 138 in Corrosion, Vol. I. Corrosion o{Metals
and Allo,vs, L. L. Shrcir (ed.). George Newnes Ltd .. London. 1963. 561. Fujii, T.: Rust Prevention (80sei Kanri) 27, 85,1983; cited on p. 97 in Corrosion-Resistant Coatings
Technology, P. A. Schweitzer (ed.), Marcel Dekker, New York, 1989. 562. Suzuki, N.: Safety Engineering of Corrosion Protection-Protective Coatings, The High Pressure Gas
Safety Institute of Japan, 1986, p. 13; cited on p. 104 in Corrosion-Resistant Coatings Technologv, P. A. Schweitzer (ed.). Marcel Dekker, New York, 1989.
563. Crennell. J. T.: Chapter 2.3 in Corrosion, Vol. I, Corrosion of Metals and Alloys, L. L. Shreir (ed.),
George Newnes Ltd., London, 1963. 564. Tsukuda, T., and Kawabe, M.: Therm. Nucl. Power Eng. Soc. Jpn. 25, 985, 1974: cited on p. 103 in
Corrosion-ResisIallt Coatings Technologr. P. A. Schweitzer (ed.), Marcel Dekker, New York, 1989. 565. Logan. K. H.: Corrosion by soils, in The Corrosion Handbook. H. H. Uhlig (ed.), pp. 446~466. John
Wiley & Sons, New York, 1948. 566. Redfield. A. c.: Characteristics of sea water, in The Corrosion Handhook, H. H. Uhlig (cd.), pp.
III1 ~ 1122. John Wiley & Sons, New York. 1948. 567. Kim, D. K., and Leidheiser, H.: Metall. Trans. 98. 581. 1978; cited on p. 218 in Corrosion-Resistant
Coatings Technology. P. A. Schweitzer (ed.). Marcel Dekker. New York. 1989. 568. Standish, J. V: Atmospheric corrosion mechanisms of painted steel. Society of Automotive Engineers
International Congress & Exposition, Detroit, February 28~March 4, 1983, SP-538. pp. 1 ~lJ.
569. Hafford, B. c.: Zinc-containing protective coatings, in Encvc/opedia of'Materials Science and Engineering. Vol. 7, M. B. Bever (ed.), pp. 5521~5528, MIT Press. Cambridge, Massachusetts, 1986.
570. Yan, M. F: Zinc oxide, in Encyclopedia of Materials Science and Engineering, Vol. 7, M. B. Bever
(ed.), pp. 5528~5530, MIT Press. Cambridge. Massachusetts, 1986. 571. Baboian. R.: The automotive environment. in Automotive Corrosion b,' Deicing Salts, R. Baboian (ed.),
pp. 3~ 12, National Association of Corrosion Engineers, Houston, 1981.
572. Neville, R. J.: A test for under vehicle corrosion resistance, in Automotive Corrosioll by Deicing Salts, R. Baboian (ed,), pp. 182~218, National Association of Corrosion Engineers. Houston, 1981.
573. Rynewicz,1. F: Evaluation of paint coatings tested in the deep Atlantic and Pacific oceans, in Corrosion in Natural Environments. STP 558, pp. 209~235, American Society for Testing and Materials, Phila
delphia. 1974.
432 REFERENCES
574. Huot, J. Y: The effects of silicate ion on the corrosion of zinc powder in alkaline solutions, J. Appl. Electrochem. 22,443-447,1992.
575. Reinhart, EM.: Corrosion of metals and alloys in the deep ocean, Naval Facilities Engineering
Command, Alexandria, Virginia, Technical Report R834. February 1976. 576. Natorski, T. J.: Zinc and zinc alloy plating in the '90s, Met. Finish. 90(3),15-17.1992. 577. Pearlstein, E: Selection and application of inorganic finishes. Part 1. Black oxide and phosphate coatings,
Plating Suif. Finish. 65(] 2), 22-29, 1978. 578. Phosphate coating, in ASM Metals Handbook, 9th ed., Vol. 5, pp. 434-456, American Society for Metals,
Materials Park, Ohio. 1982. 579. Cheever, G. D.: Formation and growth of zinc phosphate coatings, J. Paint Techno!. 39. 1-13, 1967. 580. Hotchandani, S., and Kamat, P. v.: Photoelectrochemistry of semiconductor ZnO particulate films, J.
Electrochem. Soc. 139. 1630-1634, 1992. 581. Tegehall, P. E., and Vannerberg, N.-G.: Nucleation and formation of zinc phosphate conversion coating
on cold-rolled steel, Corros. Sci. 32, 635-652, 1991. 582. International Organization for Standardization: Chromate conversion coatings on zinc and cadmium
test methods, International Standard, ISO 3613-1980 (E), pp. 243-246. 583. American Society for Testing and Materials: Standard practice for testing chromate coatings on zinc
and cadmium surfaces, Annual Book of ASTM Standards, Vol. 02.05, No. B201-80, pp. 58-60, 1980. 584. Centre de Recherches Metallurgiques (Belgium): Continuous gal fan coating of steel sheet and wire,
International Lead Zinc Research Organization Project ZM-285, Progress Report No. 20, November 1988-ApriI1989.
585. Johnsson, T., and Kucera, v.: Eight years' field exposure of coatings of zinc, aluminium and their alloys,
Proceedings of the 2nd International Conference on Zinc Coated Steel Sheet, Rome, Italy, June 9-10,
1988, pp. SA6/I-SA6/l1. 586. Davin, A., and Goodwin, E E.: Atmospheric corrosion behaviour of gal fan coated steels, Proceedings
of the 2nd International Conference on Zinc Coated Steel Sheet, Rome, Italy, June 9-10, 1988, pp.
SA2/l-SA2/31. 587. Belisle, S., and Dufresne, R.: Corrosion resistance of ZA alloys, Canadian Institute of Mining,
Metallurgy, and Petroleum 25th Annual Conference of Metallurgists, International Symposium on
Zinc-Aluminum (ZA) Casting Alloys, Toronto, Ontario, August 17-20, 1986, pp. 109-126. 588. Vrable, J. B.: Effect of forming deformation on corrosion test performance of electroplated zinc and
iron-zinc alloy coatings for automotive sheet, SAE Technical Paper No. 862012, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, December 8-10,
1986. 589. Gray, B. M., and Shaffer, R. 1.: An evaluation of cosmetic corrosion performance of zinc and zinc alloy
coated steels, SAE Technical Paper No. 862014, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, December 8-10,1986.
590. Lay, D. E., and Eckles, W. E.: The fundamentals of zinc/cobalt, Plating Suif. Finish. 77(10), 10-14.
1990. 59!. Anderson, E. A.: Chromate coatings on zinc, in The Corrosion Handbook, H. H. Uhlig (ed.), pp.
862-864, John Wiley & Sons, New York, 1948. 592. Taylor, E: Chromate passivation, Met.lnd, 1944(September), 149-150. 593. Anderson, E. A.: The Cronak process, Proc. Am. Electroplaters Soc. 31, 6-13, 1943. 594. Coppins. W. C: Chemical colouring, Met. Ind. 1948(June),482. 595. Stareck, 1. E.: Anozinc and other new coatings on zinc, Proc. Am. Electroplaters Soc. 32, 235-247,
1944. 596. Pearlstein, E: Selection and application of inorganic finishes. Part IV. Anodic coatings for other metals,
Plating Suif. Finish. 66, 41-46, 1979. 597. Wilcox, G. D., and Gabe, D. R.: Passivation studies using group via anions. Part iv. Cathodic redox
reactions and film formation, Br. Corros. J. 19, 196-200, 1984. 598. Barnes, C, Ward, J. J. B., Sehmbhi, T. S., and Carter, V. E.: Non-chromate passivation treatments for
zinc, Trans. Inst. Met. Finish. 60,45-48, 1982. 599. Shalaby, L. A., and Abbas, H.: The behaviour of zinc and zinc-silver alloys in the presence of some
inhibitors, Carras. Sci. 13, 545-552, 1973.
REFERENCES 433
600. Abdul Azim, A. A., Shalaby, L. A., and Abbas, H.: Mechanism of the corrosion inhibition ofZn anode in NaOH by gelatine and some inorganic anions, Corros. Sci. 14,21-24, 1974.
601. LeRoy. R. L., and Zavorsky, Z.: Cathodic pretreatment of zinc and zinc-coated surfaces, Corms. Sci. 17, 943-944, 1977.
602. Rudresh, H. B., and Mayanna, S. M.: The synergistic effect of halide ions on the corrosion inhibition of zinc by n-decylamine, Corros. Sci. 19,361-370,1979.
603. De Pauli, C P., Giordano, M. C, Lopez, B. A., and Manzur, M. E.: The passivation of zinc in slightly acidic buffered solutions in the presence of phosphate ions, Corros. Sci. 28, 769-785, 1988.
604. Bagger, N. B.: Colouring of metals, Mater. Methods 1949(June), 67-82.
605. Hinton, B. R. W.: New approaches to corrosion inhibition with rare earth metal salts, National Association of Corrosion Engineers Corrosion '89 Conference, New Orleans, Louisiana, April 17-21, Paper No. 170.
606. Hosny, A. Y., El-Rafei, M. E., Ramadam, T A., and El-Gafari, B. A.: Corrosion resistance ofzinc coatings produced from a sulphate bath, Met. Finish. 1995(November), 55-59.
607. Suzuki, l.: The behavior of corrosion products on zinc in sodium chloride solution, Corros. Sci. 25, 1029- 1034, 1985.
608. Keddam, M., Hugot-Le-Goff, A., Takenouti, H., Thierry, D., and Arevalo, M. C: The influence of a thin electrolyte layer on the corrosion process of zinc in chloride-containing solutions, Corms. Sci. 33, 1243-1252,1992.
609. Dante, J. F., and Kelly, R. G.: The evolution of the adsorbed solution layer during atmospheric corrosion, Symposium on Corrosion and Reliability of Electronic Materials and Devices, Electrochemical Society Meeting, Toronto, Ontario, October 1992.
610. Kawafuku, J., Katoh, J., Toyama, M., Nishimoto, H., Ikeda, K., and Satoh, H.: Structure and corrosion resistance of zinc alloy coated steel sheets obtained by continuous vapor deposition apparatus, 1. Iron Steel lilst. Jpn. 77, 995-1002,1991.
611. Sagiyama, M., Hiraya, A., and Watanabe, T.: Electrochemical behavior of electrodeposited zinc-iron alloys in 5'70 NaCI solution, J.lmn Steel Inst. lpn. 77,244-250, 1991.
612. Sagiyama, M., Hiraya, A., and Watanabe, T.: Electrochemical behavior of electrode posited zinc-iron alloys in alkaline solutions, J. Iron Steel blSt. Jpn. 77,251-257, 1991.
613. Schubert. R.: The interaction of sulfuric acid vapors and zinc surfaces, 1. p;fectrochem. Soc. 139, 3450-3453, 1992.
614. Zhang, X. G.: Effect of weather pattern on corrosion of zinc and steel, unpublished results. 615. Grossman, P. R.: Investigation of atmospheric exposure factors that determine time-of-wetness of
outdoor structures, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 5-16, American Society for Testing and Materials, Philadelphia, 1978.
616. Baedecker, P. A., Edney, E. 0., Moran, P. J., Simpson, T C, and Williams, R. S.: Effects of acidic deposition on materials, State-of-Science/Technology, National Acid Precipitation Assessment Program, Report No. 19, May 1990.
617. Daescn, J. R.: Corrosion resistance of galvanized coatings, Proceedings of the 2nd International Congress on Metallic Con'osion, New York, March 11-15, 1963, pp, 686-705.
618. Ellis, O. B.: Effect of weather on the initial corrosion rate of sheet zinc, Proc. ASTM COllf 49, 152-170, 1949.
619. Salt, F. W., Stanners, J. F., and Watkins, K. 0.: Atmospheric exposure trials of electrodeposited iron-zinc alloy coatings, Br. Corros. 1. 1,5-8, 1965.
620. Dey, A. K.. Sinha Mahapatra, A. K., Khan, D. K., Mukherjee, A. N., Narain, R., Mukherjee, K. P., and Baneljee. T: Interim report on atmospheric corrosion studies under marine atmosphere, NML (Natl. Mew/!. Lab., Jmnshedpur. India) Tech. J. 8, 11-16, 1966.
621. Cooke, F., Cosslett, J. K., Scott, R. W., and Shanahan, C E. A.: The atmospheric cOlTosion resistance of elcctrodeposited tin-cadmium and tin-zinc coatings on steel, Br. Corros. l. 1. 283-289, 1966.
622. Payer, J. H .. and Safranek, W. H.: Atmospheric corrosion of electroplated zinc alloy die casting, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 115-128, American Society for Testing and Materials, Philadelphia, 1978.
623. Fukushima, T, Sato, N., Hisamatsu, y, Matsushima, T, and Aoyama, Y.: Atmospheric corrosion testing in Japan, in Atmospheric Corrosion, W. H. Ailor (ed.), pp. 841-872, John Wiley & Sons, New York, 1982.
434 REFERENCES
624. Longo, EN., and Durmann, G. 1.: Corrosion prevention with thermal-sprayed zinc and aluminum coatings, in Atmospheric Factors Affecting the Corrosion of Engineering Metals, STP 646, pp. 97-114, American Society for Testing Materials, Philadelphia, 1978.
625. Spedding, D. 1.: Some investigations into hydrogen sulphide adsorption by zinc, Corros. Sci. 17, 173-178, 1977.
626. Spence, 1. W, Edney, E. 0., Haynie, E H., Stiles, D. c., Corse, E. W, Wheeler. M. S., and Cheek, S. E: Advanced laboratory and field exposure systems for testing materials, in Corrosion Testing and Evaluation: Silver Anniversary Volume. STP 1000, pp. 191-207, American Society for Testing and Materials, Philadelphia, 1990.
627. Spence, 1. W, and Haynie, E H.: Derivation of a damage function for galvanized steel structures: Corrosion kinetics and thermodynamic considerations, in Corrosion Testing and Evaluation: Silver Anniversary Volume, STP 1000. pp. 208-224. American Society for Testing and Materials. Philadelphia. 1990.
628. Haynie, E H .• Spence, 1. W, Lipfert, E W, Cramer, S. D., and McDonald. L. G.: Evaluation of an atmospheric damage function for galvanized steel, in Corrosion Testing and Evaluation: Silver Anniversary Volume, STP 1000, pp. 225-240. American Society for Testing and Materials, Philadelphia, 1990.
629. Cramer, S. D., and McDonald, L. G.: Atmospheric factors affecting the corrosion of zinc. galvanized steel and copper, in Corrosion Testing and Evaluation: Silver Anniversary Volume, STP 1000. pp. 241-259, American Society for Testing and Materials, Philadelphia. 1990.
630. Zhang. X. G.: Corrosion of zinc in salt spray test. Cominco Report 651-008, 1992. 631. Spence. J. W, Haynie, E H., Lipfert, E w., Cramer, S. D .• and McDonald, L. G.: Atmospheric corrosion
model for galvanized steel structures, Corrosion 48.1009-1019, 1992. 632. Locke, C. E.: Solving rebar corrosion problems in concrete, National Association of Corrosion
Engineers. Chicago. September 1982, reprint #2. 633. Locke, C. E.: Solving rebar corrosion problems in concrete. National Association of Corrosion
Engineers. September. Chicago. September 1982, preprint #5. 634. Lin, S. H.: Chloride diffusion in a porous concrete slab, Corrosion 46. 964-967. 1990. 635. lang. 1. W .• and Iwasaki, I.: Rebar corrosion under simulated concrete conditions using galvanic current
measurements, Corrosion 47. 875-884, 1991. 636. Gau, Y .. and Cornet, I.: Penetration of hardened concrete by seawater chlorides with and without
impressed current. Corrosion 41, 93-100. 1985. 637. Tritthart. J.: Pore solution composition and other factors influencing the corrosion risk of reinforcement
in concrete. in Corrosion of Reinforcement in Concrete. C. L. Page, K. W. J. Treadaway, and P. 8. Bamforth (eds.), pp. 96-106, Elsevier Science Publishing Co. New York. 1990.
638. Bamforth, P. 8.. and Pocock, D. c.: Minimising the risk of chloride induced corrosion by selection of concreting materials, in Corrosion of Reinforcement in Concrete, C. L. Page, K. W. J. Treadaway, and P. B. Bamforth (eds.), pp. 119-131. Elsevier Science Publishing Co .• New York, 1990.
639. Dehghanian, c., and Locke, C. E.: Electrochemical behavior of steel in salt contaminated concrete: Part I, Corrosion 39. 299-305. 1983.
640. American Society for Testing and Materials: Standard test method for half-cell potentials of uncoated reinforcing steel in concrete, in ASTM Standards for Corrosion Testing of Metals, No. C876-87. pp. 94-98. ASTM, Philadelphia, 1990.
641. Elsener, 8., Muller, S., Suter, M., and Bohnl, H.: Corrosion monitoring of steel in concrete-theory and practice, in Corrosion of Reinforcement in Concrete, C. L. Page, K. W. J. Treadaway, and P. 8. Bamforth (eds.), pp. 348-357, Elsevier Science Publishing Co., New York, 1990.
642. Borgard, 8., Ramirez, c., Somayaji, S., Jones, D., Keeling, D., and Heidersbach, R.: Failure analysis
in concrete structures: A comparison of field data with results from laboratory exposure, Corrosion 47, 758-769, 1991.
643. Funahashi, M., and Bushman, J. 8.: Technical review of 100 mv polarization shift criterion for reinforcing steel in concrete, Corrosioll47, 376-386,1991.
644. Rosenberg, A. M., Gaidis, 1. M., Kossivas, T. G., and Previte, R. W: A corrosion inhibitor formulated with calcium nitrite for use in reinforced concrete, in Chloride Corrosion of Steel in Concrete, STP 629,
pp. 89-99, American Society for Testing and Materials, Philadelphia, 1977.
REFERENCES 435
645. Cornet, I.. and Bresler. B.: Galvanized steel in concrete: Literature review and assessment of perform·
ance, in Galvanized Reinforcement for Concrete~lI. pp. I-56. International Lead Zinc Research
Organization. New York. 1981. 646. Gonzalez, 1. A .. Algaba, S., and Andrade. c.: Corrosion of reinforcing bars in carbonated concrete. Br.
Corms . .I. 15, 135-139. 1980. 647. Clemena, G. G.:Electrically conductive portland cement concrete, Proceedings of the National Asso·
ciation of Corrosion Engineers Corrosion '87 Symposium on Corrosion of Metals in Concrete. pp.
49-64. 648. Krepski. R. P., Zinc silicate thermal spray coating for corrosion control of steel in concrete, Proceedings
of Fourth National Thermal Spray Conference. Pittsburgh, Pennsylvania, 1991. p. 433. 649. Yeomans. S. R.: Corrosion testing of black, galvanized and epoxy coated reinforcing steel in concrete,
University of New South Wales, internal report Australia, 1993.
650. Piercy, R. c.: Cominco Project No. 67·6·747, Report No.5. 1967. 65 I. Watson. T. w.: Cominco Project No. 67·6·749. Report No.3. 1967. 652. Keitelman. A. D., Gravano. S. M .• and Galvele. J. R.: Localized acidification as the cause of passivity
breakdown of high purity zinc. Corms. Sci. 24, 535-545, 1984. 653. Li, S., He. 1.. and Li. S.: The effect of rare earth elements on corrosion resistance of electrodeposited
zinc coating. Proceedings of the 7th APCCC Conference on Corrosion Control, Beijing China. 1991.
Vol. 2. pp. 1034-1038. 654. Bengough, G. D., and Hudson, O. F.: Fourth report to the corrosion committee of the institute of metals.
Presented at the Annual General Meeting. London. March 25, 1919. 655. Featherly. R. L.: Practical experiences in corrosion of hot water tanks. Plumbing Hearing .I.
1952(ApriI/May).
656. Newell, I. L.: The corrosion of domestic galvanized hot water storage tanks, Corrosio/1 9, 46-51. 1953. 657. Duval R.. and Arliguie. M. G.: Passivation du zinc dans I'hydroxyde de calcium. eu, egard au
comportement de I'acier galvanise dans Ie beton. Mem. Sci. Rev. Metal/urg. LXXI. 719. 1974. 658. Stein, A.: The prevention of corrosion in galvanized iron water tanks-the results of 12 year field trials.
Proceedings of the 5th Annual Conference of the Australasian Corrosion Association. Newcastle. New
South Wales. Australia. November 16-20,1964. 659. Chandler. K. A.: Marine and Offshore Corrosion, Butterworth & Co .• London, 1985. 660. Fink. F. W .. and Boyd. W. K.: The corrosion of metals in marine environments, Defense Metals
Information Center. DMIC Report No. 245, Columbus, Ohio, May. 1970. 661. Darbin M .. Jailloux, J. M .. and Montuelle, 1.: Durability of reinforced earth structure: The results of a
long·term study conducted on galvanized steel. Proc. Inst. Civ. Eng. Part I, 1988, 1029. 662. Khan, D. K .. Mukherjee. K. P., and Banerjee, T.: Correlation of data in laboratory and field studies on
sea water corrosion. NML (Natl. Metall. Lab., Jamshedpur, India) Tech. J. 8(4).17-21. 1966. 663. Southwell. C. R .. and Alexander, L. L.: Marine corrosion of cast and wrought non·ferrous metals,
National Association of Corrosion Engineers Conference, Houston. 1969, Paper No. 63. 664. Sedzimir. 1. A., and Gmytryk, M. W.: Corrosion of zinc in neutral sodium chloride solutions at constant
pH, Proceedings of the 2nd International Congress on Metallic Corrosion. New York, March 11-15,
1963, pp. 972-975. 665. Memmi, M.: Improvement in the corrosion resistance of Zn-Al coatings by addition of magnesium.
Proceedings of the 14th International Galvanizing Conference, INTERGALVA '85. Munich. Germany,
1985. pp. 8/1-8/2. 666. Frappe. A. L.. Limare, A .. Piessen. P .. and Vacher, 1. c.: Investigation of the influence of impurities or
alloying clements on the atmospheric corrosion of gal vanized steel, Proceedings of the 14th International
Galvanizing Conference, INTERGALVA '85. Munich, Germany, 1985. pp. 8/3-8/18. 667. Dreulle. P. Rosset. R .. and Jardy. A.: Hydrophosphate coating, Proceedings of the 12th International
Galvanizing Conference, INTERGALVA '79, Paris, May 17-23, 1979, pp. 92-96. 668. Hissel, 1.: Corrosion of galvanized steel related to water composition, Proceedings of the 12th
International Galvanizing Conference, INTERGALVA '79. Paris, May 17-23, 1979. pp. 84-91.
669. Rosset, R., Jardy. A., and Parthasarathi, M. N.: Protection of galvanized steel against cold and hot water
corrosion by a pyrophosphate coating, Proceedings of the 13th International Galvanizing Conference.
INTERGALVA '82, England. 1982.
436 REFERENCES
670. Mihailov, G., and Iovchev, M.: Corrosion studies of galvanised steel and zinc in soft water at various temperatures, Proceedings of the 8th International Congress on Metallic Corrosion. Frankfurt. Germany, 1981,pp.1754-1759.
671. Leclercq, M.: Preweathered zinc for roofing, Proceedings of the 8th International Congress on Metallic Corrosion, Frankfurt, Germany, 1981, pp. 299-303.
672. Abdel Aal, M. S., Abdel Wahab, A A., and EI Saied, A: A study of the inhibiting action of benzene thiols and related compounds on the corrosion of zinc in acidic media, Proceedings of the 8th International Congress on Metallic Corrosion, Frankfurt, Germany, 1981, pp. 1212-1216.
673. Sagiyama, M., Inagaki, 1.-1., and Morita, M.: Fe-Zn alloying behavior and the coating microstructure of galvannealed steel sheets, NKK Technical Report, No. 135, 1991, pp. 49-56.
674. Takimoto, K-I., Suzuki, K.-I., Nishizaka, K, and Ohtsubo, T.: Quantitative analysis of zinc-iron alloy galvanized coatings by glow discharge spectrometry and secondary ion mass spectrometry, Nippon Steel Technical Report, No. 33,1987, pp. 28-35.
675. Hayashi, K, Ito, y', and Miyoshi, Y.: Effect of coating weight and corrosive environment on under-film corrosion of Zn and Zn-Fe alloy coated steel sheets, l. Iron Steellnst. lpn. 78, 127-133. 1992.
676. Odashima, H.: Characteristics of electrolytic chromate films formed on zinc or zinc alloy plated steel sheet in low concentration Cr03-Heavy Metal Ions-Halogen Bath, 1. Iron Steellnst. lpn. 78, 121-126, 1992.
677. Saito, T., Wake, R., Oka, J., and Kitayama, M.: Development and properties ofZn-Ni alloy electroplated steel sheet (DURZINKLITE), Nippon Steel Technical Report, No. 25. 1985, pp. 1-10.
678. Hada, T., Kanamaru, T., Nakayama, M., Arai, K, Fujiwara, T., Suemitsu, Y., Sato, M., and Ogawa, Y.: Development and Properties of Zn-Fe Alloy Electroplated Sheet Steel DUREXCELITE, Nippon Steel Technical Report, No. 25,1985, pp. 11-18.
679. Shindo, y', Yoneno, M., Yamada, A., Oka, 1., and Ejima, M.: Development and properties of organic composite-coated steel sheet, Nippon Steel Technical Report, No. 25, 1985, pp. 19-27.
680. Tano, K, and Higuchi, S.: Development and properties of zinc-aluminum alloy coated steel sheet with high corrosion resistance (SUPER ZINC), Nippon Steel Technical Report, No. 25,1985, pp. 29-37.
681. Cabot, P. L., Cortes, M., Centellas, E, and Perez, E.: Potentiostatic passivation of zinc in alkaline solutions, l. Appl. Electrochem. 23, 371-378, 1993.
682. Schikorr, G.: The cathodic behavior of zinc versus iron in hot tap water, Trans. Electrochem. Soc. 76, 247-258, 1939.
683. Cachet, c., and Wiart, R: Zinc deposition and passivated hydrogen evolution in highly acidic sulphate electrolytes, depassivation by nickel impurities, 1. Appl. Electrochem. 20. 1009-1014, 1990.
684. Edney, E. 0., Stiles, D. c., Corse. E. W., Wheeler, M. L., Spence, 1. w., Haynie, E H., and Wilson, W. E.: Controlled field study to determine the impact of dry and wet deposition of air pollutants on the corrosion rate of galvanized steel, National Association of Corrosion Engineers Corrosion '87 Conference, San Francisco, March 9-13, 1987, Paper No. 410.
685. McLarnon, E R, and Cairns, E. J.: The secondary alkaline zinc electrode, l. Electrochem. Soc. 138, 645-664, 1991.
686. Bonilla, C. E: Pipe service tests on Baltimore water-pitting of black and galvanized wrought iron and steel pipe carrying cold water, hot water, and returning condensate, Trans. Electrochem. Soc. 87, 237-254,1945.
687. Aurian-Blajeni, B., and Tomkiewicz, M.: Space charge effects at passive zinc electrodes, 1. Electrochem. Soc. 133, 1766-1769, 1986.
688. Morral, E R: X-ray analysis of corrosion products from galvanized sheets, Trans. Electrochem. Soc. 77n8,279-288.1940.
689. Southwell, C. R, Hummer, C. w., Alexander, A. L, and Forgeson, B. W.: Corrosion of metals in tropical environments. Part VI-galvanic couples, National Association of Corrosion Engineers, 19th Annual Conference, New York, March 11-15, 1963.
690. Alexander, A L., Forgeson, B. w., Mundt, H. w., Southwell, C. R, and Thompson, L. J.: Corrosion of Metals in Tropical Environments-Part I-Test Methods Used and Results Obtained for Pure Metals and a Structural Steel. Naval Research Laboratory, Report No. 4929, U.S. Dept. of Commerce, Washington, D.C., June 19,1957.
691. Kweon, Y. G., and Coddet, C.: Behavior in seawater of zinc-base coatings on aluminum alloy 5086, Corrosion 48, 97-102, 1992.
REFERENCES 437
692. Suzuki, I., and Enjuzi, M.: The development of the corrosion resistance of an Fe-Zn alloy coating on
the basis of the behaviour of the corrosion product, Corms. Sci. 26. 349-355, 1986. 693. Stern, M.: A method for determining corrosion rates from linear polarization data, Corrosion 14,
440t-444t, 1958.
694. Stern, M., and Geary, A. L.: Electrochemical polarization-Part I. A theoretical analysis of the shape of polarization curves, .I. Eleclrochelll. Soc. 104. 56-63, 1957.
695. Kautek, W.: The galvanic corrosion of steel coatings: Aluminum in comparison to cadmium and zinc,
Corros. Sci. 28, 173-199. 1988.
696. Campbell, H. S.: Sprayed aluminium and zinc protect against corrosion by aqueous solutions. Anti-Corrosioll 1982(August), 10-12.
697. Rangel, C Moo De Damborenea, 1., De Sa. A. I.. and Simplicio. M. H.: Zinc and polyphosphates as
COlTosion inhibitors for zinc in ncar neutral waters. Br. Corros . .I. 27, 207-212, 1992. 698. De Pauli, C Poo Giordano. M. C, and Mishima. H. T.: Zinc dissolution and passivation in buffered
phosphate solutions. Part II. About the nature of the passivating film,.!. Eleclmallal. Chelll. 103,95-102,
1979.
699. Belisle. S .. and Dufresne, R.: Performance of galvanized steel in municipal wastewater treatment plants.
Maler. Perform. 31(6). 64-67. 1992.
700. Deslouis. C, Duprat. Moo and Tourni II on, C: The kinetics of zinc dissolution in aerated sodium sulphate
solutions. A measurement of the corrosion rate by impedance techniques. Corms. Sci. 29. 13-30. 1989. 701. Fedrizzi. L.. Ciaghi, L., Bonora, P. L.. Fratesi, Roo and Roventi, G.: Corrosion behaviour of electrogal
vanized steel in sodium chloride and ammonium sulphate solutions, a study by E.I.Soo J. Appl. Eleclrochelll. 22.247-254.1992.
702. Cachet, C. De Pauli, C P, and Wiart, R.: The passivation of zinc in slightly alkaline solutions. Corms. Sci. 25.493-502, 1985.
703. Abdel-Aal, M. S., Ahmed, Z. A., and Hassan. M. S.: Inhibiting and accelerating effects of some
quinolines on the corrosion of zinc and some binary zinc alloys in HCI solution, .J. AI)I)I. fJeClmchcm. 22,1104-1109,1992.
704. Rangel, C Moo and Cruz, L. E: Zinc dissolution in Lisbon tap water. Corros. Sci. 33.1479-1493, 1992. 705. Tsuru, Y, Takenouchi, K.. and Hosokawa. K.: Scanning micro-electrode study of zinc corrosion in
hydrochloric acid solution. Asahi Glass Foundation for Industrial Technology, Report, Vol. 57. pp.
193-199, 19901 in Japanese I. 706. Chiu, S. L.. and Selman, 1. R.: Determination of electrode kinetics by corrosion potential measurements:
Zinc corrosion by bromine . .I. Apl'l. Eleclrochem. 22, 28-37, 1992. 707. Grubitsch, H., and !ilL 0.: The hot water corrosion of zinc. Part II. Korros. Melallsclillr: 16. 197-203,
1940 1 in German I. 708. Bianchi, G.: Corrosion of zinc by differential aeration, Corrosion 14, 245t-248t, 1958. 709. Gilbert, P. T.: An investigation into the corrosion of zinc and zinc-coated steel in hot waters, Sheer Mel.
Ind. 1948( October-December). 710. Lorking. K. E: The corrosion of zinc, Department of Supply, Australian Defence Scientific Service,
Metallurgy Report No. 67, Melbourne, Australia, May 1967. 711. Pryor. M. J., and Keir, D. S.: Galvanic con-osion,.I. Eleclrochem. Soc. 104.269-275, 1957. 712. Shatfer, R. 1., and Belisle, S.: An assessment of the performance of coated sheet steels in vehicle and
atmospheric environments, NatIOnal Association of Corrosion Engineers Corrosion '91 Conference,
Cincinnati. Ohio, March 11-15. 1991. Paper No. 411. 713. Subramanian, G .. Ananth, v., Chandrasekaran, P, Pairaj, S., and Guruviah, S.: Con-os ion and surface
modifications of zinc at mandapam, Bull. Eleclrochem. 6, 494-496, 1990. 714. Arimura, M .. I wai, M., Sakai, H., and Nishimoto. H.: Field test of Zn-Ni alloy electroplated steel sheet
formed into automotive door in Okinawa for 5 years, National Association of Corrosion Engineers
Con'osion '91 Conference, Cincinnati, Ohio. March 11-15. 1991. Paper No. 370. 715. Fedrizzi, L., and Bonora, P. L.: Effects of mechanical deformation on electrochemical behaviour of
galvanised steel, Br. Corms . .I. 28, 37-42. 1993. 716. Zheng. Y, Wang. Z., and Zhang, E: Influence of acid deposition on atmospheric corrosion of linc,
Proceedings of the 7th APCCC Conference on Corrosion Control, Beijing China. 1991, Vol. I. pp. 487-490.
438 REFERENCES
717. Nagy, Z., and Wesson. 1. M.: Error analysis of the polarization-resistance technique for corrosion-rate measurements.J. Electrochem. Soc. 139. 1261-1266. 1992.
718. Mansfeld. E: Polarization resistance measurements-today's status. Electrochemical Techniquesfor Corrosion Engineering. pp. 67-71, National Association of Corrosion Engineers. Houston. 1986.
719. Silverman, D. c.: Primer on the AC impedance technique. in Electrochemical Techniquesfor Corrosion Engineering. pp. 73-79. National Association of Corrosion Engineers. Houston. 1986.
720. Nielsen, K.. and Y ding. E: Influence of pipe quality on corrosion of galvanized steel pipes for domestic water supply, Werkst. Karras. 34, 547-556,1983.
721. Abayarathna. D.: Corrosion and polarization characteristics of single crystal and polycrystalline zinc surfaces. Ph.D. Thesis. University of Missouri-Rolla, 1989.
722. Roberts, C. W.: An investigation into the causes of intercrystalline corrosion in zinc-aluminium alloys. Metallurgia. 1961(9).57-66.
723. von Riecke. E.: Investigation on the influence of zinc on the corrosion behavior of high strength steels. Werkst. Korros. 30, 619-630.1979.
724. Chen. C. L, Lee. P. Y. Wu. 1. K.. Chiou. D. 1.. Chu. C. y, and Lin, 1. Y: The use of zinc and tin coatings and chemical additives for preventing hydrogen embrittlement in steel. Carras. Prevo Control 40(3), 71-74.1993.
725. Biber, H. E.: Scanning auger microprobe study of hot-dipped regular-spangle galvanized steel. Part I. Surface composition of as-produced sheet. Metall. Trans. 19A. 1603-1608, 1988.
726. Ross, T. K., and Wolstenholme. 1.: Anti-corrosion properties of zinc dust paints. Carras. Sci. 17, 341-351.1977.
727. Johnson. B. V .• and Ross, T. K.: The protection of mild steel by zinc-rich paint in flowing aerated 0.5 M NaCI solution. Part II. The effect of exposed area ratio, Corros. Sci. 18.511-518. 1978.
728. Chua, H. H., Johnson, B. V., and Ross, T. K.: The protection of mild steel by zinc-rich paint in flowing aerated 0.5 M NaCI solutions. Part I. The effect of zinc particle size. Carras. Sci. 18, 505-510, 1978.
729. Chua, H. H., and Ross, T. K.: The protection of mild steel by zinc-rich paint in flowing aerated 0.5 M NaCI solution. Part IV. The effect of zinc oxide addition, Corros. Sci. 18, 523-525, 1978.
730. Yakimenko, G. Ya .. Andryushchenko. E K., Kharchenko. E. P.. and Valenya, E. P.: Colored molybdate films on zinc and their protective properties. Zashch. Met. 13. 123-125, 1977.
731. Pedram, R., and Ross, T. K.: The protection of mild steel by zinc-rich paint in flowing aerated 0.5 M NaCI solution. Part III. The effect of zinc content, Carras. Sci. 18, 519-522, 1978.
732. Vannerberg, N.-G., and Sydberger, T.: Reaction between S02 and wet metal surfaces, Corros. Sci. 10, 43-49, 1970.
733. Strekalov, P. v.. Agafonov, V. V., and Mikhailovskii. Yu. N.: Effect of temperature on the adsorption of moisture and the corrosion rate of zinc under atmospheric conditions. Zashch. Met. 8(5).577-580. 1972.
734. Miki. K.. Shimogori, K., Satoh, H., Ikeda, K., M, and Terada.: Corrosion behaviour of cold rolled and zinc alloy plated steel sheets in various kinds of corrosion tests, Tetsu To Hagane 72, 1090-1097. 1986.
735. Fukuda, Y., Tsuchiya. Y. Terasaka. M., Nakaoka. K., and Hara. T.: Analysis of corrosion layers on electrodeposited Zn-Ni (I3wt%) alloys using AES, SAM, XPS, SEM and XRD, Tetsu Ta Hagane 72, 1782-1789,1986.
736. Mattei, I. V., Martorano, R.. and Johnson. E. A.: Formulating stable latex paints with zinc oxide, Jo. Coatings Techno!. 63. 39-45. 1991.
737. Kenworthy. L.: The problem of copper and galvanized iron in the same water system. J. Inst. Met. 69, 67-90. 1943.
738. Tanabe. H .. Shinohara. T .• Hoshino, M., Itami, K.. and Sato, Y.: Effect of dissolved oxygen on under-film corrosion. Boshoku Gijutsu 30. 622-626. 1981.
739. Westberg, J., and Borjesson, L-G.: Influence of sheet metal surface conditions on the corrosion properties of automotive paint systems, National Association of Corrosion Engineers Corrosion '80, Chicago, March 3-7, 1980, Paper No. 278.
740. Jordan, D. L.: Galvanic interactions between corrosion products and their bare metal precursors: A contribution to the theory of underfilm corrosion, Proceedings of the Symposium on Advances in Corrosion Protection by Organic Coatings, 1989, pp. 30-43.
741. Kurokawa, S., Ban, T., Yamato, K., and Ichida, T.: A study on cosmetic and perforation corrosion test for automotive steel sheets, J. Iron Steellnst. Jpn. 72, 1111-1118, 1986.
REFERENCES 439
742. Shibuya, A .. Kurimoto, T.. Korekawa, K., and NojI, K.: Corrosion-resistance of electroplated Ni-Zn alloy steel sheet, Tetsu To Hagane 66. 771-778, 1980.
743. Tanabe, H .. Shinohara. T.. Sato. Y. Nii. H .. Hoshino, M., and Itami, K.: Effect of zinc rich paints on the
durability of epoxy top coats in sodium chloride solution. Boshoku Gijutsu 30, 390-395, 1981. 744. Ramasamy, N .. Sarangapani, S., Nityanandan, J. P, Venkatesan, S .. and Aravamuthan. V: Gas evolution
studies with powder compact Zn anodes, Corros. Sci. 11, 873-884, 1971. 745. Moreno, E .. and Sagues, A. A.: Performance of plain and galvanized reinforcing steel during the initial
stage of corrosion in concrete with pozzolanic addition, National Association of Corrosion Engineers.
Corrosion '96, Paper No. 326, 1996. 746. Vernon, W. H. J.: Second experimental report to the Atmospheric Corrosion Research Committee
(British Non-FelTous Metals Research Association), TrailS. Faraday Soc. 23, 113-204, 1927. 747. Vernon, W. H. J.: A laboratory study of the atmospheric corrosion of metals. Part II. Iron: The primary
oxide film. Part III. The secondary product or rust (influence of sulphur dioxide, carbon dioxide and
suspended particles on the rusting of iron), Trans. Faradav Soc. 31, 1668-1700, 1935. 748. Vernon, W. H. J.: A laboratory study of the atmospheric corrosion of metals. Part I. The corrosion of
copper in certain synthetic atmospheres, with particular reference to the influence of sulphur dioxide in air of various relative humidities, Trans. Faraday Soc. 27,255-277, 1931.
749. Heitz, E., Hukovic, M., and Maier. K. H.: Basic process of corrosion in organic solvents II, Werkst. Korros. 21. 457-462,1970 lin Germani·
750. Fujita, S., Shimizu, Y, and Matsushima, I., Corrosion resistance of painted zinc plated steel in sodium
solution, Tetsu To Hagane 72, 1897-1902, 1986. 751. Wagner, C: Contribution to the theory of cathodic protection, l. Electrochem. Soc. 99, 1-12, 1952. 752. Myers, J. R., and Obrecht. M. E: Potable water systems-recognition of cause vital in minimizing
cotTosion, Mater. Prot. Perfimn. 11(4),41-46, 1972. 753. Fedot'ev, N. P .. Grilikhes, S. Ya., and Orekhova, E. E: Effect of light on the corrosion of zinc and
cadmium, Zh. Prikl. Khilll. 32,1428-1430,1959. 754. Miyoshi, Y: Evaluation technology of corrosion behavior for automotive steel sheet, ISIJ Int. 31(2),
122-133,199L 755. LaQue. E L., and Boylan, 1. A.: Effect of composition of steel on the performance of organic coatings
in atmospheric exposure, Corrosion 9(8), 237-241,1953. 756. Ikeda, K., and Satoh, H.: An analysis of corrosion cracking phenomena of electrode posited Zn-Ni alloy
layers, J.lron Steel Inst. lpn. 77,1162-1168,1991. 757. Arsalane, M .. and Tosser, A.: Interband photoconduction edge in zinc sulphide thin films, NOliI'. Rev.
Opt. 7(5), 323-327, 1976 lin French]. 758. Suzuki. N .. Bando, S .. and Sugisawa. S.: Phosphotability of Zn-Ni alloy electroplated steel sheets, l.
lroll Steellnsf. lpn. 77, 1058-1065, 1991. 759. Margulies. P. H.: Peroxygen compounds hold important place in treating metal surfaces, lrollAge 175(4),
71-74,1955. 760. Mukherjee, D., Venkataraman, B., Palaniswamy, N., Natesan, M., and Balakrishnan, K.: COlTosion and
oxidation resistance of zinc composite materials, The International Congress on Metallic Corrosion,
Madras, India, 1987, Vol. 4, Sessions 14-19, pp. 3689-3694. 761. Fernandez, A., del Carmen Leiro, M., Rosales, B. M., Ayllon, E. S., Varela, E E., Gervasi, C A .. and
Vikhe, J. R.: Techniques applied to the analysis of the atmospheric corrosion of low carbon steel, zinc, copper and aluminum, in Proceedings of the 12th International Corrosion Congress on Corrosion Control for Low-Cost Reliability, September 19-24, 1993, Vol. 2, pp. 574-589, 1993. National Association of Corrosion Engineers, Houston.
762. Wakano, S., Shibuya, A., Hobo, Y, and Nishihara, M.: Corrosion performance of Zn alloy precoated steels for automotive body, Trans. Iron Steel In.51. lpn. 23, 967-973, 1983.
763. Cachet, C, Stroder, U., and Wi art, R.: The kinetics of zinc electrode in alkaline zincate electrolytes, Electrochim. Acta 27, 903-908, 1982.
764. Shibuya, A., Kurimoto, T., Hoboh, Y. and Usuki, N.: Development of Ni-Zn alloy plated steel sheet, Trans. lroll Steellnst. ll'". 23,923-929, 1983.
765. Svensson, 1.-E., and Johansson, L.-G.: A laboratory study of the initial stages of the atmospheric corrosion of zinc in the presence of NaCI, influence of S02 and N02 , Corros. Sci. 34,721-740, 1993.
440 REFERENCES
766. Miura, N., Saito, T., Kanamaru, T., Shindo, Y., and Kitazawa, Y.: Development of new corrosion-resistant steel sheets for automobiles, Trans. Iron Steel Inst. lpn. 23,913-922, 1983.
767. Standish, J. v., Whelan, G. w., and Roberts, T. R: The corrosion behavior of galvanized and cold rolled steels, SAE Technical Paper No. 831810, Society of Automotive Engineers International Congress and Exposition, Detroit, February 28-March 4, 1983.
768. Yamashita, M., Kubota, T., and Adaniya, T.: Organic-silicate composite coated steel sheet for automobile body panel, SAE Technical Paper No. 8620 17. Society of Automotive Engineers International Congress and Exposition, Detroit, February 24-28, 1986.
769. Lambert, M. R, and Hart, R G.: Corrosion resistance of 0-15% Ni-Zn alloy electroplated coatings, SAE Technical Paper No. 860266, Society of Automotive Engineers International Congress and Exposition, Detroit, February 24-28, 1986.
770. Tsugawa, S.-I., Mohri, T., Kobayashi, S., and Ichida, T.: Newly-developed organic composite-coated steel sheet with high perforation resistance, SAE Technical Paper No. 850004, Society of Automotive Engineers International Congress and Exposition, Detroit, February 25-March I, 1985.
771. Watanabe, T., Ohmura, M., Honma, T., and Adaniya, T.: Iron-zinc alloy electroplated steel for automotive body panels, SAE Technical Paper No. 820424, Society of Automotive Engineers International Congress and Exposition, Detroit, February 22-26, 1982.
772. Miyoshi, Y., Kitayama, M., Nishimura, K, and Naito, S.: Cosmetic corrosion mechanism of zinc and zinc alloy coated steel sheet for automobiles, SAE Technical Paper No. 850007, Society of Automotive Engineers International Congress and Exposition, Detroit, February 25-March I, 1985.
773. Bassi, G., and Hugo, J. P.: Etch pits in zinc, 1. Inst. Met. 87, 376-379, 1958-1959. 774. Obrecht, M. E: Potable water systems in buildings: Deposit and corrosion problems, Heat.lPipinglAir
Condo 1973(May), 77-83. 775. Khairy, E. M., and Khater, M. M.: Contribution to the electrochemical behaviour of zinc electrode in
pyridine media, Corros. Sci. 12, 121-132, 1972. 776. Shams EI Din, A. M., and Khedr, M. G. A.: Role of anions in the corrosion and corrosion inhibition of
Zn in aqueous solutions. Part II. Behaviour in deaerated solutions and the determination of critical currents for passivation, Corros. Sci. 12, 393-404, 1972.
777. Grauer, R, and Kaesche, H.: Electronmicrospic and electrochemical investigations on the passivation of zinc in O.IM NaOH, Corros. Sci. 12,617-624, 1972.
778. Myrdal, R.: Phenomena that disturb the measurement of potentials in concrete, National Association of Corrosion Engineers, Corrosion '96, Paper No. 339, 1996.
779. Williams, L. E G.: The initiation of corrosion of chromated zinc electroplate on steel, Corros. Sci. 13, 865-868, 1973.
780. Theiler, E: The rust preventing mechanism of zinc dust paints, Corros. Sci. 14,405-414,1974. 781. Dirkse, T. P.: The solubility product constant ofZnO, 1. Electrochem. Soc. 133, 1656-1657, 1986. 782. Caswell, P., Hampson, N. A., and Larkin, D.: The differential capacitance of zinc in aqueous solution-a
further note, 1. Electroanal. Chem. 20, 335-338,1969. 783. Cescon, P., Marassi, R., Bartocci, v., and Fiorani, M.: Standard electrode potentials of silver, cadmium,
cobalt, indium, titanium, zinc in molten alkali thiocyanates, 1. Electroanal. Chem. 23, 255-259, 1969. 784. Awad, S. A., and Kamel, Kh. M.: Mechanism of corrosion-inhibition and corrosion-promotion of zinc
by phosphate ions. 1. Electroanal. Chem. 24,217-225,1970. 785. Hampson. N. A., Herdman, G. A., and Taylor, R: Some kinetic and thermodynamic studies of the system
Zn, OH, 1. Electroanal. Chem. 25. 9-18, 1970. 786. Armstrong, R D., and Bell, M. E: The active dissolution ofzinc in alkaline solution, Electroanal. Chem.
Interfacial Electrochem. 55, 201-211,1974. 787. Drury, J. S., Hampson, N. A., and Marshall, A.: The anodic behaviour of zinc in silicate-containing
alkaline solutions, Electroanal. Chem. 1I1Ierfaciai Electrochem. 50, 292-294, 1974. 788. Bonasewicz, P .. Hirschwald, W., and Neumann, G.: Intluence of surface processes on electrical
photochemical and thermodynamical properties of zinc oxide films, 1. Electrochem. Soc. 133, 2270-2278, 1986.
789. Hurien, T., and Fischer, K P.: Kinetics of zinc reactions in acidified solutions of potassium chloride, Electroanal. Chem. Interfacial Electrochem. 61, 165-173, 1975.
790. Muralidharan, V. S., and Rajagopalan, K S.: Kinetics and mechanism of corrosion of zinc in sodium hydroxide solutions by steady-state and transient methods, 1. Electroanal. Chem. 94, 21-36,1978.
REFERENCES 441
791. Lemasson. P., and Gautron. J.: On the anodic decomposition of the zinc selenide electrode. l. Electmanal. Chern. 119,289-299. 1981.
792. Masuda. H., Morishita, S .• Fujishima. A., and Honda, K.: Study of photoelectrochemical reactions at a n-type polycrystalline ZnO electrode using photoacoustic detection, 1. Electmanal. Chern. 121. 363-368. 1981.
793. Gerischer, H.: The role of semiconductor structure and surface properties in photoelectrochemical processes. l. Electmanal. Chern. 150,553-569. 1983.
794. Cabot, P. L.. Cortes, M .. Centellas. F. A., Garrido. 1. A., and Perez, E.: Potentiodynamic passivation of zinc in aqueous KOH solutions, l. Electmanal. Chern. 201. 85-100,1986.
795. Hamnett. A .• and Mortimer. R. 1.: The electrochemical oxidation of zinc studied by ellipsometry. 1. Electroanal. Chern. 234.185-192.1987.
796. Novak. M .. and Szucs.: Study of electropolishing of a Zn anode in acidic medium. l. Electroanal. Chern. 266. 157-172. 1989.
797. Wroblowa. H. S .. and Qaderi. S. 8.: The mechanism of oxygen reduction on zinc. l. Electroanal. Chern. 295.153-161.1990.
798. Kouyate, D .. Ronfard-Haret. J.-c.. and Kossanyi. 1.: Electroluminescent properties of polycrystalline zinc oxide electrodes doped with erbium ions, 1. Electroanal. Chern. 319, 145-160, 1991.
799. Cachet. c.. and Wiart, R: The kinetics of zinc dissolution in chloride electrolytes: Impedance measurements and electrode morphology. l. Electroanal. Chern. 111,235-246. 1980.
800. De Pauli. C .. Derosa, O. A. H.. and Giordano, M. C.: Effect of phosphate ions on zinc dissolution in alkaline solutions, l. Electroanal. Chern. 73. 105-108, 1976.
801. Elsdale. R N., Hampson. N. A., Jones, P. c.. and Strachan, A. N.: The anodic behaviour of porous zinc electrodes, l. Appl. Electrochern. 1, 213-217,1971.
802. Huber, K.: Anodic formation of coatings on magnesium, zinc, and cadmium, 1. Electrochern. Soc. 100. 376-382.1953.
803. Bruno. R, and Memmi, M.: The development of new galvanized coatings for use in aggressive environments, Proceedings of the II th International Galvanizing Conference. INTERGALVA '76. Ma
drid, pp. 213-221. 804. Steinsmo. U .. and Bardal, E.: Use of DC electrochemical methods for evaluation of paint films on steel,
aluminum and zinc, Corrosion 48, 910-917, 1992. 80S. Armas, R A., Gervasi, C. A., Di Sarli. A .• Real, S. G .. and Vilche. J. R.: Zinc-rich paints on steels in
artificial seawater by electrochemical impedance spectroscopy, Corrosion 48. 379-383, 1992. 806. Eger, D., Many, A.. and Goldstein. Y.: Very strong accumulation layers on ZnO surfaces, Phys. Lett.
55A(3). 197-198, 1975. 807. Cunningham, J., and Zainal, H.: Reactions involving electron transfer at semiconductor surfaces. Part
IV. Zinc oxide-promoted photoreductions in aqueous solutions at neutral pH. l. Phys. Chern. 76. 2362-2374, 1972.
808. Edwards. 1. D.: Anodic and surface conversion coatings on metals, Trans. Electrochern. Soc. 81/82, 341-357, 1942.
809. Ohsawa, S., and Takeda. M.: Studies of inhibition effect of crown ether on Zn-4% Al alloy. lbaraki Daigaku Kogakubu Kenkyu Shuh. 37. 37-45, 1989.
810. Baugh, L. M., and Lee. J. A.: Differential capacitance of polycrystalline zinc. Part I. Effect of pH and ammonium ions, Electroana/. Chern. Interfacial Electrochern. 48,55-61, 1973.
81 I. Askey. A .. Lyon, S. 8., Thompson, G. E., Johnson, J. 8.. Wood, G. c., Cooke. M .• and Sage, P.: The corrosion of iron and zinc by atmospheric hydrogen chloride. Corros. Sci. 34, 233-247, 1993.
812. Giridhar. J., and van Ooij, W. J.: Study of Zn-Ni and Zn-Co alloy coatings electrodeposited on steel strips. Part II. Corrosion, dezincification and sulfidation of the alloy coatings, Surf. Coatings Techno/. 53.35-47, 1992.
813. Fragata. F. L., and Mussoi. C. R S.: Influence of extender pigments on the performance of ethyl silicate
zinc-rich paints, l. Coatings Technol. 65, 103-109, 1993. 814. Miyoshi. Y.. Oka, 1., and Maeda, S.: Fundamental research on corrosion resistance of pre coated steel
sheets for automobiles, Trans. Iron Steellnst. lpn. 23, 974-983. 1983. 815. Shastry. C. R., and Townsend, H. E.: Effect of pretreatment on performance of zinc and zinc alloy
electroplated sheet in a cyclic corrosion test. SAE Technical Paper No. 892556. Society of Automotive
442 REFERENCES
Engineers 1989 Automotive Corrosion & Prevention Conference & Exposition, Dearborn, Michigan,
December 4-6, 1989. 816. May, T. P., and Alexander, A. L.: Spray testing with natural and synthetic sea water. Part I. Corrosion
characteristics in the testing of metals, American Society for Testi ng and Materials 53rd Annual Meeting,
June 26-30,1950, pp. 1131-1141. 817. Cunningham, J., and Corkery, S.: Reactions involving electron transfer at semiconductor sUlfaces. Part
VI. Electron spin resonance studies on dark and illuminated aqueous suspensions of zinc oxides, 1. Phys. Chem. 79,933-941,1975.
818. Shaw, B. A., and Moran, P. J.: Characterization of the corrosion behavior of zinc-Aluminum thermal
spray coatings, Corrosion '85, Boston, March 25-29,1985, Paper No. 212. 819. Anicai, L., Siteavu, M., and Grunwald, E.: Corrosion behaviour of zinc and zinc alloy depositions,
Carras. Prevo Control 1992(August), 89-93. 820. Townsend, H. E.: Effects of zinc coatings on the stress corrosion cracking and hydrogen embrittlement
of low-alloy steel, Metall. Trans. 6A, 877-883, 1975. 821. Riedl, G.: Anodes-dissolution and change of shape, Mater. Perform. 20( 12), 34-40. 1981. 822. Montes, E.: Influence of particle size distribution of zinc dust in water-based, inorganic, zinc-rich
coatings, 1. Coatings Techno!. 65, 79-82, 1993. 823. Sagiyama, M .. Kawabe, M., and Watanabe, T.: Effects of electrolysis and bath conditions on the surface
roughness. morphology and crystal orientation of zinc electrodeposit. Tetsu To Hagane 76. 1301-1308,
1990. 824. Petrovich, I.. and Galvan. J. c.: The application of electrochemical techniques to the study of duplex
systems. Galvanotecnica 36(2).29-34, 1985. 825. Sehgal, A.. Li, D .• Kho, Y. T. Osseo-Asare, K, and Pickering, H. w.: Reproducibility of polarization
resistance measurements in steel-in-concrete systems. Corrosion 48. 706-714. 1992. 826. Edney, E. 0., and Stiles. D. c.: Laboratory investigations of the impact of dry deposition of S02 and
wet deposition of acidic species on the atmospheric corrosion of galvanized steel, Atmos. Environ. 20, 541-548, 1986.
827. Kurokawa, S .. Yamato. K, and Ichida, T.: A study on cosmetic and perforation corrosion test procedures for automotive steel sheets, National Association of Corrosion Engineers Corrosion '91 Conference,
Cincinnati, Ohio, March 11-15, 1991, Paper No. 396. 828. Koda, M., Uchida, y', Suzuki, M., Deguchi, T, and Hirose, Y.: Inhibition mechanism of black patina
development on a hot dip Zn-AI alloy coated steel sheet by spraying aqueous solution of Co salt, Tetsu To Hagane 76,383-390, 1990.
829. Grunberg, L.: The formation of hydrogen peroxide on fresh metal surfaces, Proc. Phys. Soc. 866, 153-161,1953.
830. Kaneko, F., and Nagasaka, H.: Evaluation of corrosion resistance of metal sprayed and painted steel,
Surf. Eng. 6, 125-128, 1990. 831. Chance, D. A., and Nobe, K: Polarization and photopotentials of zinc single crystals in Na2S, Corrosion
28, 170-171, 1972. 832. Satoh, H., Shimogori, K., Nishimoto, H .. Miki, K, Ikeda, K, Iwai, M., Sakai. H., and Nomura, S.:
Analysis of perforation corrosion of cold rolled and galvanized steel sheets by extreme-value statistics,
Tetsu To Hagane 72, 1098-1105, 1986. 833. Danilov, F. I., Sukhomlin. D. A., Gerasimov. V. v., and Popovich, V. A.: Electrodeposition of zinc
manganese alloys, Sov. Electrochem. 28, 217-220. 1992. 834. Zhdanov, B. B., and Sukharev, N. P.: Corrosion-electrochemical behavior of alloys having a eutectic
structure: Zn-Cd, Zn-Pb and Cd-Pb, Zh. Prikl. Khim. 62. 2361-2363, 1989. 835. Hope, G. A .• and Ritchie. I. M.: The effect of gold on the oxidation of zinc in moist oxygen. Corros.
Sci. 16. 177-181, 1976. 836. Dorfman, M .• Vargas, J., Clayton, C. R .. and Herman, H.: Cavitation behavior of active thermal-sprayed
coatings. Thin Solid Films 64, 351-357, 1979. 837. Hanneman. R. E., and Aust. K T: Solute clustering and intergranular corrosion, Metallurgica 2,
235-238, 1968. 838. Hayashi, K, Ito, Y., Kato, C, and Miyoshi. Y.: Under-film corrosion behavior of zinc and zinc alloy
coated steel sheets for automobiles, Tetsu To Hagane 76. 1317-1324, 1990.
REFERENCES 443
839. Johnson. W. C: French process zinc oxide in primers for hand-cleaned structural steel, J. Coatings Technol. 57,67-75,1985.
840. Krishnan. R. M., and Muralidharan. V. S.: Electrochemical and salt spray testing of zinc electrodeposits,
Br. Corros. l. 27. 317-318.1992. 841. Takazawa. H .. Saito, H .. and Nakai, H.: Corrosion resistance of hot-dipped Zn-AI alloy coatings in
coastal areas. Zaino To Kankyo 40(7), 470-477.1991.
842. Lechner-Knoblauch. U., and Heitz, E.: Corrosion of zinc, copper and iron in contaminated non-aqueous
alcohols. Electrochirn. Acla 32. 901-907,1987.
843. Cachet. C, De Pauli, C P. and Wiart. R.: The pore texture of zinc electrodes corroded in acidic
electrolytes, Electrochim. Acta 30. 719-723. 1985. 844. Garrels. R. M.: Mineral species as functions of pH and oxidation-reduction potentials. with special
reference to the zone of oxidation and secondary enrichment of sulphide ore deposits. Geochim. Cosrnochim. Acta 5, 153-168, 1954.
845. Kuffel, K.: Comparative testing of AI and Zn hot-dip coatings in a fertilizer environment. Ochr. Korol. 29(5).116-117.1986 [in Polishl.
846. Hayashi. K .. Ito. Y. Kato. C. and Miyoshi. Y: Electrochemical study on under-film corrosion mecha
nism ofZn and Zn-Fe alloy coatings, J.lron Steeilnsl. lpn77. 1122-1129, 1991. 847. Fruhwirth, 0 .• Herzog, G. W., and Poulios, 1.: ZnO photoeffects under galvanostatic and potentiostatic
conditions. Suif. Technol. 11.259-267. 1980. 848. Lin. C, Wen. L., and Qian. S.: Corrosion failure analysis of flame sprayed Zn-A115 coating in sea water,
Acla Metal!. Sin. 26(2), B 110-BI13. 1990. 849. Cachet. C. and Wiart. R.: Reaction mechanism for zinc dissolution in chloride electrolytes, l.
Electroallal. Chem. 129, 103-114. 1981. 850. Ito. Y. Hayashi. K., and Miyoshi, Y: The influence of drying process in cyclic corrosion test on the
underfilm corrosion of galvanized steel sheets. J. Iron Steeilnsl. lpn. 77. 1138-1145, 1991.
851. De Pauli, C P .• Derosa, O. A. H., and Giordano. M. C: Zinc dissolution and passivation in buffered
phosphate solutions. Part I. A comparative study with sodium hydroxide solutions. l. Electmwwl. Chem. 86, 335-348, 1978.
852. EI-Sharif. M. R .. Suo Y 1., Watson, A., and Chisholm, CU.: Studies of chemical conversion treatments
of electrodeposited zinc-chromium and zinc-nickel-chromium alloys, in Proceedings of the 121h International Corrosion Congress on Corrosion Control for Low-Cost Reliabilitv, Septemher 19-24,
1993, Vol. I, pp. 329-336, National Association of Corrosion Engineers, Houston, 1993. 853. Sarmaitis, R., andJuzeliunas, E.: Protective action of chromate conversion coatings, Plaling Surf: Finish.
78(1). 72-76, 1991. 854. Abdel Haleem, S. M., and Abdel Fattah, A. A.: The role of some organic anions in promoting or inhibiting
the corrosion of zinc, Suif. Coatings Technol. 29,41-49, 1986. 855. Fratesi, R., and Roventi, G.: Electrodeposition of zinc alloys in chloride baths containing cobalt ions.
Mater. Chern. Phys. 23, 529-540, 1989. 856. Arshadi, M. A., Johnson, J. B., and Wood, G. C: The influence of an isobutane-S02 pollutant system
on the earlier stages of the atmospheric corrosion of metals, Corros. Sci. 23, 763-776, 1983. 857. Sakurai, S., and Naruse, T.: Conversion treatment on zinc using titanium chelate, l. Met. Finish. Soc.
lpn. 37, 674-676,1986. 858. Ohsawa. S., Takeda, M., and Yamamura, T.: Study on corrosion inhibition of zinc-aluminum alloy by
organic compounds. J. Met. Finish. Soc. lpn. 39, 310-314. 1988. 859. Nikolova. M .. Raichevski. G .. Banova, R.. Rashkov, S. T., and Klaus. M.: Corrosion hehaviour of
electrodeposited zinc-cobalt alloy coatings, Bull. Electrochern. 5, 314-318, 1989. 860. Addison, W. E.: Slruclural Principles in Inorganic Compounds, John Wiley & Sons, New York. \953,
p.57. 861. Almeida. E., Pereira, D .. and Figueiredo, 0.: The degradation of zinc coatings in salty atmospheres,
Prog. Org. Coat. 17, 175-189, 1989. 862. Fukuda, Y, and Fukushima, T.: Electrodcposition of nickel and zinc into the pores of anodic oxide film
on aluminum, Trans. NaIl. Res.lnsl. Mel. 26,315-321,1984. 863. Hauffe, K., and Range, J.: On the anodic dissolution of zinc-oxide single crystals in the presence of
light, Phys. Chern. 71, 690-697, 1967.
444 REFERENCES
864. Sydberger, T, and Vannerberg, N.-G.: The influence of the relative humidity and corrosion products on the adsorption of sulfur dioxide on metal surfaces, Corros. Sci. 12, 775-784, 1972.
865. Zeller, R. L., and Savinell, R. E: Interpretation of a.c. impedance response of chromated electrogalvanized steel, Corros. Sci. 26, 389-399,1986.
866. Wilcox, G. D., Gabe, D. R., and Warwick, M. E.: The development of passivation coatings by cathodic reduction in sodium molybdate solutions, Corros. Sci. 28, 577-587,1988.
867. Felloni, L., Fratesi, R., Roventi, G., and Fedrizzi, L.: Assessment of the corrosion resistance of Zn-Ni electrodeposits, Proceedings of the 11th International Corrosion Congress, Florence, Italy, April 2-6, 1990, Vol. 2, pp. 365-372.
868. Biestek, T, Drys, M., Sokolov, N., Knotkova, D., Ramishvili, R., Kozhukharov, v., and Zeldel, M.: Atmospheric corrosion of metallic systems. Part V. Identification of the chemical compounds in the corrosion products of zinc, Zashch. Met. 19(5), 750-753, 1983.
869. Hayashi, K, Ito, Y, Kato, c., and Miyoshi, Y: Electrochemical study on under-film corrosion mechanism of Zn and Zn-Fe alloy coatings, Tetsu To Hagane 77, 1122-1129, 1991.
870. Calvert, J. G., Lazrus, A., Kok, G. L., Heikes, B. G., Walega, J. Goo Lind, 1., and Cantrell, C. A: Chemical mechanisms of acid generation in the troposphere, Nature (London) 317, 27-35, 1985.
871. Alimov, V. I., Berezin, A. v., Marchuk, S. I., and Lavrent'eva, G. A.: Corrosional resistance of zinc coating on steel after annealing, fzv. Akad. Nauk SSSR Met. 1988(3), pp. 160-163.
872. Ohsawa, S., Takeda, M., and Yoshinuma, K: Studies on corrosion inhibition of zinc single crystals by organic inhibitors, fbaraki Daigaku Kogakubu Kenkyu Shuho, 36(12),141-148, 1988.
873. Aoki, T, Sumiya, 1., Uchida, y, and Hirose, Y: Hydrogen Permeation Behavior in the Coating Layers ofZn-AI Alloy Coated Sheets, Nissin Steel Technical Report, Vol. 52, June 10, 1985.
874. Beranek, E., Barton, K, Sekerka, I., and Smrcek, K: Reactions in aqueous suspensions of zinc oxide. Part II. Reaction mechanism for the formation of hydrogen peroxide and its influence on the photoelectric properties of an iron electrode kept in the zinc oxide suspension, Collect. Czech. Chem. Commun. 25,369-374,1960.
875. Rausch. W.: Chemical surface treatment of steel coated with zinc and zinc alloys, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet. GALVATECH '89. Tokyo. September 5-7, 1989. pp. 197-205.
876. Johnsson. T, and Nordhag. L.: Corrosion resistance of coatings of aluminium. zinc and their alloys: Results offouryears' exposure, United Nations Seminar, Steel Committee, Economic and Technological Aspects of the Protection of Steel Against Corrosion, May 7-11, 1984. Geneva.
877. Akerdida, M. T, and Lyon, S. B.: Comparative corrosion resistance of galvanized and galvannealed steel, in Surface Engineering Practice-Processes, Fundamentals and Applications in Corrosion and Wear. K N. Strafford, P. K Datta, and J. S. Gray (eds.), Ellis Horwood, New York, pp. 543-552. 1990.
878. Condensation in Insulated Domestic Roofs, Department of the Environment, Building Research Establishment. Digest No. 270, Glasgow, Scotland, February 1983.
879. Common Defects in Low-Rise Traditional Housing, Department of the Environment, Building Research Establishment, Digest No. 268, Garston, Watford, England, December 1982.
880. Notowidjojo, B. D., Kennon, N. E, and Wingrove, A L.: Hot dip galvanizing: The process, the economics, the future, Proceedings of the Conference Step into the 90's, August 27-31, 1989, Queensland, Australia, Vol. 2.
881. Sakoda, A, Wakano, S., and Nishihara, M.: Effect of coating weight on cosmetic corrosion performance ofZn andZn-Alloy electroplated steel sheets in automotive body, l.fron Steelfnsf. lpn. 72, 1106-1110, 1986.
882. Bohe, A E., Vilche, J. R., Juttner, K, Lorenz, W. J., and Paatsch, w.: Investigations of the semiconductor properties of anodically formed passive layers on Zn and of ZnO single crystals in different aqueous electrolytes by EIS, Electrochim. Acta 34, pp. 1443-1448, 1989.
883. Stern, E: Iteration methods for calculating self-consistent fields in semiconductor inversion layers, l. Comput. Phys. 6, 56-67, 1970.
884. Baugh, L. M., Gidney, P. M., and Lee, J. A.: Pitting ofzinc in leclanche and related electrolytes. Part II. Mode of growth of pits and rate of propagation, Electrochim. Acta 25,765-777, 1980.
885. Baugh, L. M., Field, R. J., and Lee, 1. A.: Pitting of zinc in leclanche and related electrolytes. Part I. Pitting characteristics on battery alloy and single crystal electrodes, Electrochim. Acta 25, 751-763, 1980.
REFERENCES 445
886. Dirkse. T P. and Hampson. N. A.: The anodic behaviour of zinc in aqueous solution. Part III. Passivation in mixed KF~KOH solutions. Electrochim. Acta 17, 813~818, 1972.
887. Dirkse, T P .. and Hampson. N. A.: The zinc exchange reaction in KOH solution. Part II. Exchange current density measurements using the double-impulse method, Electrochim. Acta 17, 383~386. 1972.
888. Schwabe, K.. and Luck. H.-B.: The anodic behaviour of zinc in saturated solution of zinc sulphate. Electrochim. Acta 17. 99~IOS. 1972.
889. Dirkse, T P, and Hampson. N. A.: The anodic behaviour of zinc in aqueous KOH solution. Part I. Passivation experiments at very high current densities, Electrochim. Acta 16. 2049~20S6. 1971.
890. Breiter. M. W.: Dissolution and passivation of vertical porous zinc electrodes in alkaline solution. Electrochim. Acta IS, 1297-1304. 1970.
891. Krug, H., and Borchers. H.: Results of corrosion experiments with zinc alloys. Electrochim. Acta 13. 2203~2205. 1968.
892. Morrison. S. R., and Freund. T.: Chemical reactions of electrons and holes at the ZnO electrolytesolution interface. Electrochim. Acta 13, 1343-1349. 1968.
893. Bonnemay. M .. Hamelin. A.. and Sanchez de Haro. M.: Etude de la dechargc du zinc et du cadmium sur electrodes monocristallines. Electrochim. Acta 8, S09-S19. 1963.
894. Hurlen. T.: Kinetics of metal/metal-ion electrodes: Iron, copper. zinc, Electrochilll. Acta 7. 6S3~668. 1962.
895. Shoji, T, Hishinuma. M .. and Yamamoto, T.: Zinc~manganese dioxide galvanic cell using zinc sulphate as electrolyte: Rechargeability of the cell, J. Appl. Electrochem. 18, S21-526, 1988.
896. Randin, l-P: Determination of state-of-discharge ofzinc~silver oxide button cells. Part I. Galvanostatic measurements, 1. Apl'l. Electrochem. IS, 293~306, 1985.
897. Thomas, B. K., and Fray. D. 1.: The conductivity of aqueous zinc chloride solutions. 1. Appl. Electmchem. 12. 1-5. 1982.
898. Popov, K. I., Pavlovic, M. G., Spasojevic, M. D., and Nakic, V. M.: The critical overpotential for zinc dendrite formation, J. Apl'l. Electrochem. 9, S33~S36, 1979.
899. Poa, S.-P., and Wu, C. H.: The current distribution and shape change of zinc electrodes in secondary silver-zinc cells, J. Appl. Electmchem. 8. 491~SOI. 1978.
900. Poa, S.-P .. and Wu, C. H.: A quantitative study of shape change in zinc secondary electrodes. 1. Appl. Electrochem. 8, 427 ~436. 1978.
901. Coates, G., Hampson, N. A., Marshall, A., and Porter. D. F: The anodic behaviour of porous zinc electrodes. Part II. The effects orspecific surface area of the zinc compact material. 1. Appl. Electrochem. 4, 7S~80, 1974.
902. Dirkse, T P, and Kroon. D. 1.: Effect of ionic strength on the passivation of zinc electrodes in KOH solutions, 1. Appl. Electrochelll. I, 293~296. 1971.
903. Bushrod, C. J., and Hampson. N. A.: The anodic behaviour of zinc in KOH solution. Part V. Galvanostatic polarization with an interruption. J. Appl. Electrochem. 1, 99~ 101, 1971.
904. Dirkse, T P.: Voltage decay at passivated zinc anodes, J. Appl. Electrochel1l. 1. 27~33. 1971. 90S. Schuldiner, S" and White. R. E.: Studies of time~potential chang~s on an electrode surface during
current interruption. Part I. Zinc~steel couple in synthetic sea water. J. Electrochem. Soc. 97. 433~447. 1950.
906. Delahay,P, Pourbaix, M., and Van Rysselberghe, P.: Potential-pH diagram orzinc and its applications to the study of zinc corrosion. 1. Electrochem. Soc. 98, 101 ~ lOS, 195 I.
907. EI Wakkad. S. E. S., Shams EI Din. A. M .. and Kotb, H.: The anodic oxidation of zinc and zinc~tin alloys at very low current density. J. Electrochem. Soc. 105, 47~51. 1958.
908. Gulbransen. E. A .. and McMillan. W. R.: Electron diffraction studies on the oxidation of pure copper and pure zinc between 200 and 500 C, J. Electrochem. Soc. 99, 393~40 1, 1952.
909. Granese. S. L., Fernandez. A., and Rosales. B. M.: Chemical characterization of the corrosion products formed on plain C steel, zinc, copper and aluminum, in Proceedings ()fthe 12th International Corrosion Congress 011 Corrosion COlltrolfor Low-Cost Reliability, September 19~24, 1993, Vo\. 2. pp. 652~661, National Association of Corrosion Engineers, Houston.
910. Fry, H., and Whitaker. M.: The anodic oxidation of zinc and a method of altering the characteristics of the anodic films. 1. Electrochell1. Soc. 106,606-611, 1959.
911. Papazian, H. A., Flinn. P A., and Trivich, D.: Influence of impurities on the photoconductance of zinc oxide, J. Electrochem. Soc. 104, 84~92, 1957.
446 REFERENCES
912. Gulbransen, E. A., and McMillan, W. R: Electron diffraction studies on the oxidation of pure copper and pure zinc between 200 and 500 C, 1. Electrochem. Soc. 100, 292-293, 1953.
913. Jorgensen, P. 1.: Effect of an electric field on the oxidation of zinc, 1. Electrochem. Soc. 110,461-462, 1963.
914. Harrison, D. E., and Hummel, E A: Phase equilibria and fluorescence in the system zinc oxide-boric oxide, 1. Electrochem. Soc. 103,491-498, 1956.
915. Rudresh, H. B., and Mayanna, S. M.: Adsorption of n-decylamine on zinc from acidc chloride solution, 1. Electrochem. Soc. 124,340-342, 1977.
916. Chuang, S.-E, Collins, S. D., and Smith, R. L.: Porous silicon microstructure as studied by transmission electron microscopy, Appl. Phys. Lett. 55, 1540-1542, 1989.
917. Mukherjee, D., Venkataraman, B., Palaniswamy, N., and Balakrishnan, K.: Effect of alloying elements on the corrosion resistance properties of zinc, 1. Electrochem. Soc. India 37, 233-236, 1988.
918. Kobayashi, T., Yoneyama, H., and Tamura, H.: Effect of illumination intensity on stabilization ofZnO photoanodes in halide solutions, Chem. Lett. 1979,457-460.
919. Kohl, P. A., and Bard, A. 1.: Semiconductor electrodes. Part 13. Characterization and behavior of n-type ZnO, CdS, and GaP electrodes in acetonitrile solutions, 1. Am. Chem. Soc. 99, 7531-7539, 1977.
920. Sakoda, A: Corrosion mechanism of zinc-iron alloy mechanical coating, Bosei Kanri 34(4), 131-134, 1990.
921. Morrison, S. R, and Freund, T.: Chemical role of holes and electrons in ZnO photocatalysis, 1. Chem. Phys.47, 1543-1551, 1967.
922. Yamato, K., Umino, S., Yasuda, A .• and Ichida, T.: Corrosion behavior of zinc alloy and finely alumina dispersion coating, Hyomen Gijutsu 40, 162-163, 1989.
923. Diaz, A., Gonzalez, C. L., Gonzalez, S., and Arevalo, A: Activating or inhibiting action of some compounds on zinc corrosion, Bull. Electrochem. 3, 289-294, 1987.
924. Hinton,8. R w., and Wilson, L.: The corrosion inhibition of zinc with cerous chloride, Corros. Sci. 29, 967-985, 1989.
925. Shuldener, H. L., and Lehrmen, L.: Effect of increasing the area of iron to zinc on the rate of reversal of potential in a zinc-iron system, Corrosion 14(12), 17, 1958.
926. Phibbs, M. K., and Giguere, P. A: Hydrogen peroxide and its analogues. Part III. Absorption spectrum of hydrogen and deuterium peroxides in the near ultraviolet, C. 1. Chem. 29, 490-493, 1951.
927. Jepson, S., Meecham, S., and Salt, E W.: The electrodeposition of iron-zinc alloys, Trans. Inst. Met. Finish. 32, 160-185, 1955.
928. Ruckert, J., Neubauer, E, and Zietelmann, c.: Influence of bitumineous roof coverings on corrosion behaviour of roof draining systems made of zinc and galvanized steel, Werkst. Korros. 34, 355-364, 1983.
929. Obrecht, M. E: The forms of corrosion in potable water piping. Part II., Heat./Piping/Air Condo 1973(July),33-37.
930. Obrecht, M. E: The forms of corrosion in potable water piping, Heat./Piping/Air Condo 1973(June), 57-62.
931. Case, 8.: The diffusivity of oxygen in dilute alkaline solution from 0 to 65 C, Electrochim. Acta 18, 293-299, 1973.
932. Morrison, S. R: Measurement of surface state energy levels of one-equivalent adsorbates on ZnO, Surf. Sci. 27, 586-604, 1971.
933. Dirkse, T. P., Passivation studies on the zinc electrode, Power Source 3, Proceedings of the 7th International Symposium, Brighton, September 1970, p. 485.
934. Bech-Nielsen, G., Larsen, M. K., Jensen, K. A., and Ulrich, D.: The corrosion and dissolution valence of a chromated Zn-Fe alloy studied by CMT and EC measurements, Corros. Sci. 36, 1907-1919, 1994.
935. Leidheiser, H.: Applications of mossbauer spectroscopy to studies of electrodeposits and the chemistry of metal surfaces, 1. Electrochem. Soc. 135, 5-11, 1988.
936. Asami, K., Hashimoto, K, Masumoto, T., and Shimodaira, S.: ESCA study of the passive film on an extremely corrosion-resistant amorphous iron alloy, Carras. Sci. 16,909-914, 1976.
937. Johansson, E., and Linder, M.: The influence of environmental acidification on the atmospheric corrosion of zinc, in Proceedings of the 12th International Corrosion Congress on Corrosion Control for Low-Cost Reliability, September 19-24, 1993, Vol. 2, pp. 549-560, National Association of Corrosion Engineers, Houston, 1993.
REFERENCES 447
938. Persson, D .. and Leygraf, C: Metal carboxylate formation during indoor atmospheric con'osion of Cu.
Zn. and Ni, 1. Electrochern. Soc. 142, 1468-1477, 1995. 939. Gomes. W. P., and Cardon, F.: Study of noise associated with oxidation reactions at the illuminated
single crystal zinc oxide anode, 1. Solid State Chern. 3, 125-130, 1971. 940. Svensson, I.-E., and Johansson, L.-G.: Initial stages of the SOrinduced atmospheric corrosion of zinc
investigated by in-situ IR spectroscopy and time-resolved trace gas analysis. synergistic effects of N02
and 0 3, in Proceedings of the 12th International Corrosion Congress on Corrosion Controlfor Low-Cost Reliabilitv, September 19-24. 1993. Vol. 2, pp. 662-675, National Association of Corrosion Engineers.
Houston, 1993. 941. Gerischer, H.: On the stability of semiconductor electrodes against photodecomposition,./. Electmanal.
Chern. 82. 133-143. 1977. 942. Micka. K .. and Gerischer, H.: Anodic photooxidation of formic acid and methanol at a zinc oxide
electrode and the influence of anions, 1. Electroanal. Cheln. 38, 397-402, 1972. 943. Rosales, B. M., and Granese, S. L.: Establishment of the Zn corrOSIOn rate in NaHS01 aqueous solutions,
./. Electrochern. Soc. 132, 1281-1284, 1985. 944. Hada. H., Tanemura. H., and Yonezawa, Y: The photoreduction of the silver ion in a zinc oxide
suspension, Bull. Chern. Soc. lpn. 51, 3154-3160.1978. 945. Valencia. A .. Perez. R .. Arroyave, C, and Mesa, S.: Environmental effects in the atmospheric corrosion
of zinc: An immersion-drying study, in Proceedinf?s of the 12th International Corrosion Congress on Corrosion Controlfor Low-Cost Reliability, September 19-24, 1993, Vol. 2, p. 748, National Association
of Corrosion Engineers, Houston, 1993. 946. Pettinger, B., Schoppel, H.-R. Yokoyama, T, and Gerischer, H.: Tunnelling processes at highly doped
ZnO-electrodes in aqueous electrolytes. Part II. Electron exchange with the valence band, Ber. Bunsenges. Phvs. Chern. 78, 1024-1030, 1974.
947. Graedel, T E.: Dissolution and precipitation phenomena in atmospheric corrosion, in Proceedings of the 12th International Corrosion Congress on Corrosion Control for Low-Cost Reliabilitv, September
19-24. 1993, Vol. 2. pp. 711-721, National Association of Corrosion Engineers, Houston, 1993. 948. Sengupta, T K., and Chatterjee, S. D.: Studies on the transport properties and surface states of anodic
ZnO film on Zn, Proceedings of the 4th International Symposium on Frontiers of Electrochemistry,
November 14-16,1989, Madras, India. 949. Freund, T.: Less-than-bandgap photosensitivity of ZnO and dye sensitization by ferrocyanide ion, SUfi
Sci. 33, 295-305. 1972. 950. Freund, T, and Morrison, S. R: Mechanism of cathodic processes on the semiconductor zinc oxide,
Surf Sci. 9,119-132,1968. 951. Morrison, S. R.: Electron capture by ions at the ZnO/solution interface, Sutf. Sci. 15,363-379,1969. 952. Schwerdtfeger W. J., and McDorman, O. N.: Potential and current requirements for the cathodic
protection of steel in soils, 1. Res. Natl. Bur. Stand. 47, Research Paper RP2233, 1951. 953. Denison, I. A., and Romanoff, M.: Behavior of experimental zinc-steel couples underground, ./. Res.
Natl. Bur. Stand. 40, Research Paper RP1876, 1948. 954. Yamashita, M., Enatsu, A., Adaniya, T.. and Hara, T.: Organic-silicate composite coated Ni-Zn plated
steel sheet with high corrosion resistance for automobile bodies, 1. Iron Steellnst. lpn. 72, 1038-1043,
1986. 955. Ritter. I. J.: Ellipsometric studies on the cathodic delamination of organic coatings on iron and steel. 1.
Coatings Techno!. 54, 51-57, 1982. 956. Leidheiser, H., and Wang, W.: Some substrate and environmental influences on the cathodic delamina
tion of organic coatings, 1. Coatings Techno!. 53, 77-84, 1981. 957. Schmetzer, K., Schnorrer-Kohler, G., and Medenbach, 0.: Wulfingite and simonkolleite, two new
minerals from Richelsdorf, Hesse, F. R G., Nelles lahrb. Mineral Monatsh. 1985(4), 145-154. 958. King, R A., Miller, I. D. A., and Stott, J. F. D.: Subsea pipelines: Internal and external biological
corrosion, The National Association of Corrosion Engineers International Corrosion Conference,
Houston, 1986, pp. 268-274. 959. Chan, L., and Griffin, G. L.: Temperature programmed desorption studies of hydrogen on Zn(OOOI)
surfaces, Sutf. Sci. 145, 185-196, 1984.
448 REFERENCES
960. Hudson, J. C.: Atmospheric corrosion of metals. Third (experimental) report to the Atmospheric
Corrosion Research Committee (British Non-Frrous Metals Research Association), Trans. Faraday Soc. 25, 177-252, 1929.
961. Sumita, M., Maruyama, N., and Uchiyama, I.: Fatigue crack growth rates and their thresholds of high strength steels in sea water at the zinc potential, Tetsu To Hagane 69( 11), 113-120, 1983.
962. Zinc-Coated Reinforcement for Concrete, Department of the Environment, Building Research Establishment, Digest No. 109, Garston, Watford, England, September 1969.
963. Bird. C. E.: The influence of minor constituents in portland cement on the behaviour of galvanized steel in concrete, Corros. Prevo Control 1964(July), 17-21.
964. Miyoshi, Y., Oie, Y., Amano, M., and Koyahara, H.: Corrosion behavior of electrophoretically coated
cold rolled, galvanized and galvannealed steel sheet for automobiles-adaptability of cataphoretic
primer to zinc plated steel, SAE Technical Paper No. 820334, Society of Automotive Engineers International Congress and Exposition, Detroit, February 22-26, 1982.
965. Lindqvist, S. A., Meszaros, L., and Svenson, L.: Aspects of galvanic action of zinc-rich paints.
Electrochemical investigation of eight commercial primers,J. Oil Colour Chern. Assoc. 1985( I). 10-14. 966. Costa, 1. M., and Vilarrasa, M.: Effect of air pollution on atmospheric corrosion of zinc, Br. Carras. J.
28,117-120,1993.
967. Ahmed, D. S.: The intergranular attack in zinc alloy sacrificial anodes at elevated temperatures, Ph. D. Thesis, University of Manchester, 1984.
968. Justo, M. J., and Ferreira, M. G. S.: The corrosion of zinc in simulated SOrcontaining indoor
atmospheres, Corros. Sci. 34, 533-545, 1993. 969. Wenz, R. P., and Claus, J. J.: Influence of abrasive cleaning on the corrosion resistance of coated steel,
National Association of Corrosion Engineers Corrosion '81 Conference, Toronto, Ontario, April 6-10, 1981, Paper No. 82.
970. Ito, K., Oohashi, H., and Yoshii, T.: Corrosion behavior of zinc plated stainless steel, Proceedings of the
International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7,1989, pp. 569-576.
971. Leclercq, M.: The electrochemical determination of the proportions of metal and oxide in zinc-base coatings obtained by hot spraying, Anti-Corrosion 1978(September), 5-11.
972. Oohashi, H., and Adachi, T.: Atmospheric corrosion resistance of zinc plated stainless steel, Proceedings
of International Conference on Stainless Steels, Chiba, Japan, 1991. 973. Lieberman, E. S., Clayton, C. R., and Herman, H.: Thermally-sprayed active metal coatings for corrosion
protection in marine environments, Naval Sea Systems Command, David Taylor Naval Ship R&D
Center, Washington, D.C., Final Report, January 1984, Report No. SUSB-84-1. 974. Odnevall, I., and Westdahl, M.: Zinc chlorohydroxosulfates: Newly-discovered corrosion products on
zinc, Carras. Sci. 34, 1231-1242, 1993. 975. Swamy, R. N.: In-situ behaviour of galvanized reinforcement, Galvanized Rebar Seminar, Structural
Integrity Research Institute, University of Sheffield, April 12, 1991. 976. Gage, N., and Wright, D. A.: Corrosion testing of zinc and zinc alloy electrodeposited coatings,
Proceedings of the Asia Pacific Interfinish 90: Growth Opportunities in the 1990's Conference, Singapore, November 19-22, 1990.
977. Yoshihara, R., Wake, R., and Yamamoto, M.: Characteristics of thermal diffused Zn/SnlNi triple coated steel sheets, Proceedings of the Asia Pacific Interfinish 90: Growth Opportunities in the 1990's Conference, Singapore, November 19-22, 1990.
978. van Ooij, W. J., and Sabata, A.: Effect of paint adhesion on the underfilm corrosion of painted precoated steels, National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati, Ohio, March 11-15,1991, Paper No. 417.
979. Baboian, R.: Chemistry and corrosivity of the automotive environment, National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati, Ohio, March 11-15, 1991, Paper No. 371.
980. Skerry, B. S., and Simpson, C. H.: Combined corrosion/weathering accelerated testing of coatings for corrosion control, National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati, Ohio, March 11-15, 1991, Paper No. 412.
981. Giridhar, J., and van Ooij, W. J.: Adhesion and corrosion properties of a new NiZnlZnCo-coated steel
tire cord, Suif. Coatings Technol. 53, 243-255, 1992.
REFERENCES 449
982. van Ooij. W. J., and Sabata. A.: Chemical and thermal stability of phosphate layers on c()ld~rollcd and elcctrogalvanized steels . .I. Coatinfis Technol. 61. 51-65. 1989.
983. van Ooij. W. J .• Sabata, A .. Loison, D .. Jossic. 1., and Charbonnier. J.~c.: Paint delamination from electrocoated automotive stcels during atmosphenc corrosion. Part II. Zinc alloy~coatcd steeb. J Adhesion Sci. Technol. 3(2). 79-97.1989.
984. van Ooij. W. J., Sabata, A .. Loison. D., Jossic. T.. and Charbonnier. J.~c.: Paint delamination from electrocoated automotive steels during atmospheric corrosion. Part I. Hot-dip galvanized and electro~ galvanized steel. J. Adhesion Sci. Techno!. 3( I). 1-27. 1989.
985. van Ooij. W. J., and Sabata. A.: Developments towards corrosion~resistant sheet steels in the building and transportation industries. Scand. J. Meta/!. 21. 32-48, 1992.
986. van Ooij. W. 1., Edwards. R. A., and Neihciscl. G. L.: Cosmetic corrosion of welded hot dip galvanized steel panels, SAE Technical Paper No. 912287. Proceedings of the 5th Society of Automotive Engineers Automotive Corrosion & Prevention Conference, Dearborn, Michigan. October 21-23. 1991.
987. Chaker. V: Corrosion testing in soils-past, present, and future, in Corrosion Testini!, and Evaluation: Silver Anniversary Volume, STP 1000, pp. 95-111, American Society for Testing and Materials, Philadelphia, 1990.
988. Kanda. K.: Properties of black electrogalvanized steel sheet, CAMP-/SIJ 4,614-617, 1991. 989. Molina, A., Blanco, M. 1., and Andrade, c.: Corrosion rate of three different types of galvanized coatings
of steel reinforcements in contact with mortar, Proceedings of the 9th International Congress on Metallic Corrosion Conference, Toronto, Ontario, June 3-7,1984.
990. Walter, G. W.: Laboratory simulation of atmospheric corrosion by S02' Part I. Apparatus. e1ectrochemi~ cal techniques, example results. Corros. Sci. 32, 1331-1352, 1991.
991. Radeker, w., and Friehe, w.: Effect of alloying elements on the properties of hot dip galvanized coatings, Proceedings of the 7th International Galvanizing Conference on Hot Dip Galvanizing. Paris. June 1964, pp.167-178.
992. Askey, A., Lyon, S. B .. Thompson, G. E., Johnson, J. B., Wood, G. c.. Sage, P. w.. and Cooke, M. 1.: The effcct of f1y~ash particulates on the atmospheric corrosion of zinc and mild steel. Corms. Sci. 34, 1055-1081. 1993.
993. van Ooij. W. J., and Sabata, A.: Chemical stability of phosphate conversion coatings on cold~rolled and clcctrogalvanized steels. SurF Coatings Technol. 39/40,667-674. 1989.
994. van Ooij. W. 1., Sabata, A .. and Strom, G.: Corrosion of primed and fully painted prccoated automotive steels in atmospheric and scab tests, Prog. (Jig Coat. 18, 147-172,1990.
995. Baboian, R.: Corrosion behavior of painted galvanized auto~body steel in contact with exterior automotive trim, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet. GALVATECH '89. Tokyo. September 5-7. 1989, pp. 297-305.
996. Thomas. D. G., Cox. R. T.. and Richardson. B. A.: The role of metallic zinc in zinc rich paints. Proceedings of the 5th Annual Conference of the Australasian Corrosion Association, Newcastle, New South Wales, Australia, November 16-20.1964.
997. Zhu. Y, Li. S., Wang. J., Wang, J., and Qi, Y: The effect of titanium on improving the corrosion resistance of hot dip galvanizing zinc coating on malleable cast iron, Matet: Mech. Eng. (Chino) 15(3)' 1-4. 1991 I in Chinese].
998. Ayoub, c.. Davin, A., Goodwin, F. E., and Coutsouradis, D.: Atmospheric corrosion behaviour of galfan coated steels, Proceedings of the 15th International Galvanizing Conference. INTERGAl.VA ' 88, Rome. June 1988.
999. Odnevall. I.. and Leygraf. c.: Formation of NaZn4CI(OH)6S04·6H20 in a marine atmosphere, Corros. Sci. 34,1213-1229,1993.
1000. Guttman. H., and Redden, 1. J.: Handling and storing of galvanized steel, Cominco PTC Project No. 71 ~5~412, Progress Report. 1972.
1001. Jagannathan, Y.: Emcrging technologies in the hot~dip coating of automotive sheet steel. 1. Metals 45(8), 48-51. 1993.
1002. Strom, M., van Ooij, W. J., Sabata, A., Edwards, R. A., Strom, G., and Ramamurthy, A. c.: A statistically designed study of atmospheric corrosion simulating automotive field conditions using a high perform~ ance climate chamber-status report of work in progress, SAE Technical Paper No. 912282, Proceed~ ings of the 5th Society of Automotive Engineers Automotive Corrosion & Prevention Conference, Dearborn, Michigan, October 21-23,1991.
450 REFERENCES
1003. Otero, E., and Royuela, J. J.: The assessment of short term data of pipe corrosion in drinking water. Part
I. Galvanized steel, Carras. Sci. 34, 1581-1593, 1993. 1004. Sebisty, J. J., and Palmer, R. H.: Hot dip galvanizing with less common bath additions, Proceedings of
the 7th International Conference on Hot Dip Galvanizing, Paris, June 1964, pp. 235-265. 1005. Abu Zahra, R. H.: A radiotracer study on the reaction between zinc and chromate. Part II. The corrosion
of zinc in dilute chromate solutions, Corros. Sci. 6,349-355, 1966. 1006. Johansson. E., and Rendahl, B.: A swedish field exposure program of precoated sheet steels intended
for the automotive industry. National Association of Corrosion Engineers Corrosion '91 Conference.
Cincinnati. Ohio, March 11-15, 1991, Paper No. 390. 1007. Townsend, H. E.: Coated steel sheets for corrosion-resistant automobiles. National Association of
Corrosion Engineers Corrosion '91 Conference, Cincinnati. Ohio, March 11-15. 1991. Paper No. 416. 1008. Loar. G. w.. Romer. K R., and Aoe. T. J.: Zinc-alloy electrodeposits for improved corrosion protection,
Plating Surf. Finish. 78(3),74-79.1991. 1009. Lindsay. J. H.: Electrogalvanized automotive sheet steel and the manufacturing system. Plating Surf.
Finish. 79(5).129-135.1992. 1010. Fawcett. N. C. Stearns. C. E .. and Bufkin. B. G.: Zinc consumption in zinc-rich primers co-pigmented
with di-iron phosphide. 1. Coatings Technol. 56. 31-34. 1984. 1011. Lee. H. H.: Galvanized steel with improved resistance to intergranular corrosion, Proceedings of the
Galvanizers Committee '77, 1977, pp. 17-23. 1012. Stareck, J. E.. and Cibulskis. W. S.: Recent developments in the use of conversion coatings on zinc.
Proc. Am. Electroplaters Soc. 1947, 171-179. 1013. Babaqi. A. S .. Hefny. M. M .. Abdulla, R. M .• and EI-Basiouny. M. S.: Cathodic behaviour of zinc in
aqueous methanol. 1. Electrochem. Soc. India 39.198-200.1990. 1014. Ghali, E. L., and Potvin. R. J. A: The mechanism of phosphating of steel, Corros. Sci. 12.583-594.
1972. 10 15. Townsend. H. E.: Twenty-five-year corrosion tests of 55% AI-Zn alloy coated steel sheet. Mater.
Petform. 32(4). 68-71. 1993. 1016. Shaldaev, V. S .. Tomashova. N. N .. and Davydov. A D.: A combined protection of zinc in the alkaline
current sources. Zashch. Met. 28. 516-519. 1992 [in Russian]. 1017. Notowidjojo. B. D .• Kennon. N. E. and Wingrove. A L.: Zinc-nickel coating: A new galvanizing
technology, Proceedings of the Step into the 90's Conference, August 27-31. 1989, Queensland.
Australia. pp. 623-632. 1018. Sommer, A. J .. and Leidheiser. H.: Effect of alkali metal hydroxides on the dissolution behavior of a
zinc phosphate conversion coating on steel and pertinence to cathodic delamination. Corrosion 43. 661-665.1987.
1019. Leidheiser, H.: Electrochemical methods for appraising corrosion protective coatings, 1. Coatings Techno!. 63, 21-31. 1991.
1020. Jones, D. A. Blitz. R. K, and Hodjati. I.: Alternate immersion testing of coated sheet steel. Corrosion 42,255-262. 1986.
1021. Guttman, H., and Niessen, P.: Reactivity of silicon steels in hot-dip galvanizing, Can. Metall. Q. 11. 609-615. 1972.
1022. Harvey. G. 1.: Structure and cOrrosion resistance of zincalume coatings. BHP Tech. Bull. 25(2). 63-67.
1981. 1023. Kaneko, K, Mochizuki, A., Nakajima, H .. Ikeda, K .• and Toyose, K: Development of galvanized
aluminum alloy sheet for body panels with an excellent filiform corrosion resistance, SAE Technical Paper No. 930703. Society of Automotive Engineers International Congress and Exposition, Detroit.
March 1-5, 1993. 1024. Cornet, I.. and Bresler, B.: Some recent developments in the use of galvanized steel reinforcement in
concrete. Proceedings of the 9th International Conference on Hot Dip Galvanizing, Dusseldorf. Germany, June 1970. pp. 414-426.
1025. Grenon, P.: Steel structures coating with zinc metallizing, National Association of Corrosion Engineers
Corrosion '87 Conference, San Francisco, March 9-13. 1987. Paper No. 427. 1026. Fawcett, N. C, Stearns, C E., and Bufkin, B. G.: Effect of zinc oxidation on the conductivity and
performance of di-iron phosphide augmented zinc-rich primers. 1. Coatings Technol. 56. 49-52. 1984.
REFERENCES 451
1027. Horstmann, D., and Riecke, E.: Fracture characteristics of hot dip galvanized steels in prestressed concrete in cases of corrosion in neutral and alkaline media, Proceedings of the 12th International Galvanizing Conference, INTERGALVA '79, Paris, May 17-23,1979.
1028. Hampson, N. A., Tarbox, M. J.: The behavior of zinc in potasium hydroxide solution, 1. Electrochem. Soc. 110,95-98,1963.
1029. Thangavel, K., Rengaswamy, N. S .. and Balakrishnan, K.: Corrosion resistance of galvanized steel in concrete. Mater. Perform. 34, 59-63, 1995.
1030. Cachet, C, Wiart, R., Ivanov, I., and Rashkov, S.: Mechanism of the reverse dissolution of zinc in the
presence of nickel. Part I. Influence of anodic products and substrate purity, 1. Appl. Electrochem. 23, 1011-1016,1993.
1031. Raichevskii, G., and Vitkova, SI.: The effect of the phase composition and the structure of electrolytic
cobalt deposits on their corrosional electrochemical behavior in an acid medium, Zashch. Met. 19, 418-424, 1973 lin Russian].
1032. Cardon, E, and Gomes, W. P.: Experiments on the zinc oxide/electrolyte interface during anodic
oxidation reactions under pulsed illumination, Surf. Sci. 27, 286-296, 1971. 1033. Vanden Berghe, R. A. L., Cardon, E, and Gomes, W. P.: On the electrochemical reactivity of the redox
couple Fe(CN)i-lFe(CN)~- at the single crystal zinc oxide electrode, Surf. Sci. 39, 368-384, 1973. 1034. Pyun, S., Bae, J., Park,s., Kim, J., and Lee, Z.: The anodic behavior of hot-galavnized zinc layer in
alkaline solution, Corros. Sci. 36, 827-835, 1994. 1035. Grabner, E. W.: Electrochemiluminescence ofrubrene at a zinc oxide electrode, Electrochim. Acta 20,
7-12, 1975. 1036. Pettinger, B., Schoppel, H.-R., and Gerischer, H.: Electroluminescence at semiconductor electrodes
caused by hole injection from electrolytes, Ber. Bunsenges. SO, 849-855, 1976. 1037. Hampson, N. A., Shaw, P. E., and Taylor, R.: Anodic behavior of zinc in potassium hydroxide solution,
Br. Corros. 1. 4, 207-211. 1969. 1038. Fichou, D., and Kossanyi, J.: Electroluminescence at the n-ZnO/electrolyte interface: A comparative
study of the emission processes under cathodic and anodic pulsed polarization, .I. Electrochem. Soc. 133,1607-1617.1986.
1039. Lewis, D. A.: Some aspects of the corrosion of steel in concrete, Proceedings of the First International Congress on Metallic Corrosion, London, April 10-15, 1961, pp. 547-555.
1040. Hair, W. J., and Wall, R.: Metal spraying and painting for the protection of steel structures in polluted
railway atmospheres, Proceedings of the First International Congress on Metallic Corrosion, London. April 10-15, 1961, pp. 556-566.
1041. Weast, R. C, Kotnik, L. J., and Geehan, D. M.: Corrosion of zinc in dilute aqueous solutions, Proceedings of the 6th International Conference on Hot Dip Galvanizing, Interlaken, Switzerland, June 1961, pp.
155-176. 1042. Stricker, E: Comparison of various methods for determining the thickness of galvanized coatings, of
the iron-zinc alloy layers and of the pure zinc layer, Proceedings of the 7th International Conference
on Hot Dip Galvanizing, Paris, June 1964, pp. 277-288. 1043. Johnsson, T., and Kucera, V: Possibilities of improving the corrosion resistance of zinc coatings by
alloying, Proceedings of the 13th International Galvanizing Conference, INTERGALVA '82, London, 1982, pp. 4711-47/6.
1044. Iovchev, M., and Mihailov. G.: Restraining the corrosion of galvanized steel by the use of neutralite-a
case study, Proceedings of the 15th International Galvanizing Conference, INTERGALVA '88, Rome, June 1988, pp. GH311-GH3/5.
1045. Yang, Z .. Li, J., and Jia, L.: Development and application of Zn-Fe alloy-coated (galvannealed) steel sheet, Proceedings of the 1st Asian-Pacific General Galvanizing Conference, September 15-18,1992,
pp.208-216. 1046. Hauffe, K.: Oxidation (if Metals, Plenum Press, New York, 1965, pp. 201-228. 1047. Glayman, J.: Anodization of zinc, Galvallo 1970(February), 147-149. 1048. Terada, K.: Solution of zinc oxide in water charged with CO2, Bull. It/st. Phys. Chem. Res. Tokyo 10,
864-871, 1931. 1049. Reinhart, F. M.: Twenty-year atmospheric corrosion investigation of zinc-coated and uncoated wire and
wire products, STP 290, pp. 1-141, American Society for Testing and Materials, Philadelphia, 1961.
452 REFERENCES
1050. Townsend. H. E .• Borzillo, A R, and Barker, W. D.: Performance of Al-Zn alloy coated steel sheet after twenty-two years of atmospheric corrosion testing, Proceedings of the 2nd International Conference on
Zinc Coated Steel Sheet, Rome, June 9-10,1988, pp. SAIII-SAllIl. 1051. Bonaretti, A, Capoccia, A., Giardetti, G., and Mucchino, U.: Process and use properties of lavegal,
Proceedings of the 2nd International Conference on Zinc Coated Steel Sheet, Rome, June 9-10, 1988,
pp. SC611-SC61l3. 1052. Applegate, L. M.: Cathodic Protection, McGraw-Hill, New York, 1960, pp. 115-117. 1053. Lucas, R W., and Eborall, R: Effects of additions to the metal and atmosphere on the surface oxidation
of zinc, The British Non-Ferrous Metals Research Association, Research Report No. A.1463, December
1963. 1054. Mayne, J. E. 0.: Effect of rust and environment on inhibition by zinc-rich paints, 1. Iron Steelln.H. 176,
140-143, 1954; Atmospheric exposure tests with zinc-rich polystyrene paints, 176, 143-146, 1954. lOSS. Mayne, J. E. 0.: Cementiferous paints. Part I & II. Zinc phosphate cements, 1. Iron Steellnsf. 219-228,
1948;289-293,1950 1056. Ryabov, A K., and Gratsansku, N. N.: Influence of small additions of metals on the physicochemical
properties of zinc coatings, Ukr. Khim. Zh. (Russ. Ed.) 30, 883-886, 1964. 1057. Pourbaix, A.: Corrosion of galvanized steel pipes used for water supply, CELBELCOR, Brussels,
Belgium, Technical Report No. 180, July 1970. 1058. Hisamatsu, Y: Science and technology of zinc and zinc alloy coated steel sheet, Proceedings of the
International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, Septem
ber5-7,1989,pp.3-12. 1059. Tsuzuki, Y, Suganuma, A, Yamamoto, T, Kozuka, N., and Mase, K.: Development of new zinc
phosphating for automobile, Proceedings of the International Conference on Zinc and Zinc Alloy Coated
Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 206-213. 1060. Sato, N.: Characterization of zinc phosphate films on zinc alloy coated steels, Proceedings of the
International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, Septem
ber 5-7,1989, pp. 214-221. 1061. Suzuki, M., Hayashi, H., Kiyomatsu, 1., Miyawaki, T, and Matsushima, Y: A study on the hopeite crystal
deposited on galvanized steel, Proceedings of the International Conference on Zinc and Zinc Alloy
Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 222-229. 1062. Nakazawa, M., and Yoneno, M.: Effect of phosphate and silica additives on the performance and structure
of chromate conversion coatings, Proceedings of the International Conference on Zinc and Zinc Alloy
Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7,1989, pp. 238-245. 1063. Koizumi, S., Shima, S., and Matsushima, Y: A development of black chromate-oxide finishes by baking
process for galvanized steel, Proceedings of the International Conference on Zinc and Zinc Alloy Coated
Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 246-253. 1064. Fountoulakis, S. G., and Steinbicker, R. N.: Influence of coating thickness on the cosmetic-corrosion
performance of zinc, zinc alloy and multilayered electroplated sheet steels, Proceedings of the Interna
tional Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7,
1989, pp. 306-313. 1065. Petrey, L. D., Shaffer, R 1., Berndt, T, and Macciocco, J.: The effect of automotive plant painting
operations on the paint adhesion and cosmetic corrosion resistance of precoated steels, Proceedings of
the International" Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo,
September 5-7,1989, pp. 314-320. 1066. Soshiki, Y, Ishida, w., Iida, A, Kanamaru, T, and Morita, 1.: Application of Fe-Zn alloy electroplated
galvannealed steel sheet to automotive bodies, Proceedings of the International Conference on Zinc and
Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7,1989, pp. 329-337. 1067. Tanaka, S., and Miyosawa, Y: Outdoor exposuring of formed specimens of precoated metal sheets,
Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH
'89, Tokyo, September 5-7,1989, pp. 381-388. 1068. Mizuno, K., Suzuki, K., Ohtsubo, T, and Suzuki, M.: Characterization of phosphate conversion coatings,
Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH
'89, Tokyo, September 5-7,1989, pp. 428-434.
REFERENCES 453
1069. Jixun, W, Yanping, L., Zhiyuan, Y, Yinhua, L., and Yingting, X.: A study ofthe structure ofZn-Fe alloy
plating, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet. GALVATECH '89, Tokyo, September 5-7,1989, pp. 619-624.
1070. Gu. Moo Notis, M. R., and Marder, A. R.: Structure of as-plated electrodeposited zinc-iron coatings,
Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH
'89. Tokyo. September 5-7,1989, pp. 462-469. 1071. Schedin, E .• Engberg, G .. Karlsson, S .. Kiusalaas, R., and Klang, H.: Plasticity of pure-zinc hot-dip
galvanized coatings, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7,1989, pp. 493-499.
1072. Ito, Y, Hayashi, K., Kato, c., and Miyoshi, Y: A study on simulated and accelarated corrosion test
methods for automotive precoated steel sheet, Proceedings of the International Conference on Zinc and
Zinc Alloy Coated Steeel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 503-510. 1073. Davidson, D. D., Soreide, L. E., and Stephens, M. L.: Evalution of the cosmetic corrosion resistance of
zinc coated sheet steels-using the chrysler chipping corrosion test and long term outdoor exposure
testing, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet,
GALVATECH '89, Tokyo, September 5-7, 1989. pp. 519-527. 1074. Sakauchi, T., and Kunimi, H.: Evaluation of the corrosion resistance of zinc-alloy-plated steel sheet
applied to automobile body, Proceedings of the International Conference on Zinc and Zinc Alloy Coated
Steel Sheet. GALVATECH '89, Tokyo. September 5-7,1989, pp. 528-535. 1075. Davidson, D. D., Soreide, L. E., and Stephens, M. L.: Assessment of the chrysler chipping corrosion
test using laboratory scab and long term outdoor exposure testing, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet. GALVATECH '89, Tokyo, September 5-7, 1989,
pp. 536-542. 1076. Uchiyama, Y, Hasaka, M., and Koga, H.: Effect of structure and mischmetal addition on the corrosion
behaviour ofZn-5 mass% AI alloy, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 545-552.
1077. Tajiri. Y .. Shimada, S., Yamaji, T., and Adaniya, T.: Effect of coating structure on corrosion resistance of hot dipped Zn-5%AI + Mg alloy coated steel sheet, Proceedings of the International Conference on
Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 553-559. 1078. Walter. G. w.: Corrosion rates of zinc based coatings calculated by a galvanostatic non-linear method
from low polarization data, Proceedings of the International Conference on Zinc and Zinc Alloy Coated
Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989. pp. 560-564. 1079. Walter, G. W.· Use of electrochemical sensors to measure corrosion characteristics of Zn and Zn-55%
AI alloy coated steel under simulated atmospheric conditions, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp.
565-568. 1080. Fukumoto, H .. Mizuki. H., and Masuhara, K.: Application of scanning vibrating electrode technique for
investigation of chemical surface treatment on zinc coated steel sheets, Proceedings of the International
Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo. September 5-7. 1989.
pp.577-584. 1081. Massinon, D .. and Dauchelle, D.: Recent progress towards the understanding of under film corrosion of
coated steels used in the automotive industry, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet. GALVATECH '89, Tokyo, September 5-7, 1989, pp. 585-595.
1082. Masuhara. Koo and Kumon, E: Corrosion resistance of prepainted Zn-4%AI-0.I % Mg-misch metal alloy coated steel sheets, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 596-602.
j 083. Matsumoto. M., Shinohara, T., and Tsujikawa. S.: Application of scanning vibrating electrode technique
to detect corrosion of zinc and zinc alloy layer under organic coating, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989,
pp.603-61O. 1084. AI-Hashem, A., and Thomas, D.: The effect of corona discharge treatment on the corrosion behaviour
of metallic zinc spots contained in polymeric coatings, Proceedings of the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, September 5-7, 1989, pp. 611-618.
454 REFERENCES
1085. Camitz, G., and Vinka, T.: Corrosion of steel and metal-coated steel in swedish soils-effects of soil parameters, in Effects of Soil Characteristics on Corrosion, STP 1013, pp. 37-53, American Society for
Testing and Materials, Philadelphia, 1989. 1086. RabeJer, R. c.: Soil corrosion evaluation of screw anchors, in Effects of Soil Characteristics on
Corrosion, STP 1013, pp. 54-80, American Society for Testing and Materials, Philadelphia, 1989. 1087. Escalante, E.: Concepts of underground corrosion, in Effects of Soil Characteristics on Corrosion, STP
1013, pp. 81-94, American Society for Testing and Materials, Philadelphia, 1989. 1088. Edgar, T. V.: In-service corrosion of galvanized culvert pipe, in Effects of Soil Characteristics on
Corrosion, STP 1013, pp. 133-143, American Society for Testing and Materials, Philadelphia, 1989. 1089. International Lead Zinc Research Organization: Corrosion Resistance of Unpainted Galfan Steel,
ILZRO Project ZM-285, Progress Report No. 24, Research Triangle Park, North Carolina, 1992. 1090. Linch, R. E, and Goodwin, E E.: Galfan coated steel for automotive applications, SAE Technical Paper
No. 860658, Society of Automotive Engineers Automotive Corrosion and Prevention Conference, Dearborn, Michigan, December 8-10, 1986.
1091. Guttman, H.: Corroded Highway Guard Rails, Cominco PTC Internal Report No. TSF 6715, 1967. 1092. Guttman, H.: A Study of Corroded Highway Guard Rail, Cominco Project No. TSF 5-410,1978. 1093. Pryor, M. J.: Bimetallic corrosion, in Corrosion, Vol. I, Shreir, L. L. (ed.), Chapter 1.69, George Newnes
Ltd., London, 1963. 1094. Zhang, X. G., and Tran, H. Q.: Effect of cyclic wetting and drying on corrosion of zinc and steel, in
Cyclic Cabinet Corrosion Testing, G. S. Haynes (ed.), ASTM STP 1238, pp. 125-135, American Society
for Testing and Materials, Philadelphia, 1995. 1095. Hill, G. A., Spellman, D. L., and Stratfull, R. E: Laboratory corrosion tests of galvamzed steel in
concrete, Transp. Res. Rec. No. 604, pp. 25-31,1976. \096. Sagues, A. A., and Kranc, S. c.: On the determination of polarization diagrams of reinforcing steel in
concrete, Corrosion 48, 624-633, 1992. \097. Sagues, A. A.: Corrosion measurement techniques for steel in concrete, National Association of
Corrosion Engineers, Corrosion '93, Paper No. 353, 1993. 1098. Videm, K., and Myrdal, R.: The electrochemical behavior of steel in concrete and how to evaluate the
corrosion rate, National Association of Corrosion Engineers, Corrosion '96, Paper No. 348, 1996. 1099. Anderson, E. A.: Zinc and zinc coatings, in: Corrosion Resistance of Metals and Alloys, 2nd ed., E L.
LaQue and H. R. Copson (eds.), pp. 223-247, Reinhold Publishing Corp., New York, 1963. 1100. Lauer, G., and Mansfeld, E: Measurement of galvanic corrosion current at zero external impedance,
Corrosion 26, 504-506,1970. 1101. Mansfeld, E, and Kenkel, J. Y.: Laboratory studies of galvanic corrosion: Effect of velocity in NaCI and
substitute ocean water, Corrosion 33, 236-240, 1977. 1102. Mansfeld, E, Hengstenberg, D. H., and Kenkel, J. Y.: Gal vanic corrosion of AI alloys: Effect of dissimilar
metal, Corrosion 30. 343-353, 1974. 1103. Mansfeld, E, and Kenkel, J. Y.: Laboratory studies of galvanic corrosion: I. Two-metal couples.
Corrosion 31, 298-302,1975. 1104. Zhang, X. G., and Valeriote, E. M.: Galvanic protection of steel by zinc under thin layer electrolytes, in
Atmospheric Corrosion, W. W. Kirk and H. H. Lawson (eds.), ASTM STP 1239, pp. 230-239, American
Society for Testing and Materials, Philadelphia, 1995. 1105. Mansfeld, E, and Kenkel, 1. Y.: Laboratory studies of galvanic corrosion: Two-metal couples, Corrosion
31,298-302,1975. 1106. Grimes W. D., Hartt, W. H., and Turner, D. H.: Cracking of concrete in sea water due to embedded metal
corrosion, Corrosion 35. 309-316,1979. 1107. O'Reilly, M. W.: Chapter 15:2 in Corrosion, 2nd ed., Vol. 2, L. L. Shreir (ed.), Newnes-Butterworths,
London, 1976. 1108. Mayne J. E. 0.: Chapter 15: 10 in Corrosion, 2nd ed., Vol. 2, L. L. Shreir (ed.), Newnes-Butterworths,
London, 1976. 1109. Leidheiser, H.: Corrosion of painted metals-a review, Corrosion 38, 374-383, 1982. 1110. Ito, K., Oohashi, H., and Yoshii, T.: Corrosion behaviour of zinc plated stainless steel, Proceedings of
the International Conference on Zinc and Zinc Alloy Coated Steel Sheet, GALVATECH '89, Tokyo, 1989,
pp. 569-576.
REFERENCES 455
1111. Hess, J. c., and Soreide, L. E.: The effect of phosphate chemistry and rinsing conditions on the corrosion
resistance and the paint adhesion of zinc coated and cold rolled sheet steels, Society of Automotive
Engineers Automotive Corrosion and Prevention Conference Proceedings, Dearborn, Michigan. 1989,
Paper No. 892557, pp. 17-38.
1112. Townsend, H. E.: Status of a cooperative effort by the automotive and steel industries to develop a standard accelerated corrosion test, Society of Automotive Engineers Automotive Corrosion and Prevention Conference Proceedings, Dearborn, Michigan. 1989, Paper No. 892569, pp. 133-145.
lin. Ito, Y, and Miyoshi, Y: Corrosion protection of galvanized steel sheet-corrosion investigation offield
vehicle and its laboratory evaluation methods, Society of Automotive Engineers Automotive CorrosIon
and Prevention Conference Proceedings, Dearborn, Michigan, 1989, Paper No. H92580, pp. 217-227. 1114. Franks, L. L.: An eight-year atmospheric and on-vehicle corrosion test of painted and zinc coated steels,
Society of Automotive Engineers Automotive Corrosion and Prevention Conference Proceedings.
Dearborn, Michigan, 1989, Paper No. 892581, pp. 229-238. 1115. Kokubo. Z., Nomura, S., Sakai, H., Sakaguchi, M., and Zwai, M.: Newly developed Zn-Fe/Zn-Ni
double-layer electroplated steel sheet, Society of Automotive Engineers Automotive Corrosion and
Prevention Conference Proceedings, Dearborn, Michigan. 1983, Paper No. 830518, pp. 75-82. 1116. Catanzano, A., Arrigoni, G., Palladino, M., and Sarracino, M.: Multilayer electrogalvanized (Zn-Cr
CrOx) steel sheet for optimum corrosion protection of car bodies, Society of Automotive Engineers Automotive Corrosion and Prevention Conference Proceedings, Dearborn, Michigan. 1983, Paper No.
830583, pp. 107-124. 1117. Zhang, X. G .. and Tran, H. Q.: Effect of cyclic wetting and drying on corrosion of zinc and steel, in STP
1238, Cyclic Cahinet Corrosion Testing. G. S. Haynes (cd.), pp. 125-135, American Society for Testing and Materials, Philadelphia, 1995.
IIIH. Despic. A. R.: Deposition and dissolution of metals and alloys, Part B: Mechanisms, kinetics. texture, and morphology, in Comprehensive Treatise ()( Electrochemistry, Vol. 7, B. E. Conway et al. (cds.),
Plenum Press, New York, pp. 451-528. 1119. Straumanis, M. E., and Wang, Y: Surface disintegration of zinc mono- and polycrystals dissolving
anodically in sodium bromate solutions and the apparent valency of zinc ions, Corrosion 22, 132-136,
1966. 1120. Kim, J. T, and Jorne, 1.: The kinetics and mass transfer of zinc electrode in acidic zinc-chloride solution,
1. Electrochem. Soc. 127,8-15.1980. 1121. Lee, T S.: Hydrogen overpotential on zinc containing small amounts of impurities in concentrated
alkaline solution, 1. Electrochem. Soc. 120,707-709, 1973. 1122. Hoare, J. P.: The Electrochemistrv o(Oxvr;ell, Intersciencc Publishers, John Wiley & Sons. New York,
1968. 1123. Tarasevich, M. R., Sadkowski, A., and Yeager, E.: Oxygen electrochemistry, in Comprehmsil'e 7imtise
ofElectrochemistrv, Vol. 7, B. E. Conway et al. (eds.), Plenum Press, New York, pp. 301-398. 1124. Stratmann, M., and MUller, J.: The mechanism of the oxygen reduction on rust-covered metal substrates.
Corms. Sci. 36, 327-359, 1994. 1125. Holler, H. D.: Studies on galvanic couples, 1. Electrochem. Soc. 97(12),271, 277, 453,1950. 1126. Sato, N.: The passivity of metals and passivating films, in Passivity of Metals, R. Frankenthal and J.
Kruger (eds.), pp. 29-58, The Electrochemical Society, Princeton, New Jersery, 1978. 1127. Vetter, K. J.: EleClrochim. Acta 16,1923,1971. 1128. Hull, M. N., Ellison, J. E., and Toni, J. E.: The anodic behaviour of zinc electrodes in potassium
hydroxide electrolytes, J. Electrochem. Soc. 117, 192-198, 1970. 1129. Zhang, X. G., and Hwang, 1.: Cominco Internal Report 651-008, 1994. 1130. Eisenberg, M., Baumann, H. F, and Brettner, D. M.: Gravity field effects on zinc anode discharge in
alkaline media, 1. Electrochem. Soc. 108,909-915, 1961. 1131. Hampson, N. A., Shaw, P. E., and Taylor, R.: Anodic behaviour of zinc in potassium hydroxide solution,
Br. Corrosion 1. 4, 207-211,1969. 1132. Dirkse, T P.: The behaviour of the zinc electrode in alkaline solutions, 1. FJeclrochem. SoC, 125,
1591-1594, 1978. 1133. van der Lcij, M.: The possibility of black zinc oxide as spectrally selective coating for low temperature
solar collectors, 1. Electrochem. Soc. 125, 1361-1364, 1978.
456 REFERENCES
1134. Aurian-Blajeni, B., and Tomkiewicz, M.: Passive zinc electrodes: Application of the effective medium theory, J. Electrochem. Soc. 132,869-870, 1985.
1135. Loftus, D., Roberts, J., Weaver, R, Leach, S., and Nanis, L.: Diffusivity in zinc chloride-potassium chloride electrolyte, J. Electrochem. Soc. 130,332-334, 1983.
1136. Bonasewicz, P., Hirschwald, W., and Neumann, G.: Influence of surface processes on electrical, photochemical, and thermodynamical properties of zinc oxide films, J. Electrochem. Soc. 133, 2270-2278,1986.
1137. Sato, Y., Niki, H., and Takamura, T.: Effects of carbonate on the anodic dissolution and the passivation of zinc electrode in concentrated solution of potassium hydroxide, 1. Electrochem. Soc. 118, 1269-1272, 1971.
1138. O'Brien, R N., Leja, J., and Beer, E. A: Interferometric study of the ZnlZnS041Zn system, J. Electrochem. Soc. 121,370-375, 1974.
1139. Gouda, V. K., Khedr, M. G. A., and Shams EI Din, A M.: Role of anions in the corrosion and corrosion-inhibition of zinc in aqueous solutions, Corros. Sci. 7,221-230,1967.
1140. Kordesch, K. V.: Alkaline manganese dioxide zinc batteries, in Batteries, K. V. Kordesch (ed.), Vol. I, pp. 241-384, Marcel Dekker, New York, 1974.
1141. Schumm, B.: Zinc-carbon batteries, in Modern Battery Technology, C. D. S. Tuck (ed.), pp. 87-111, Ellis Horwood, Chichester, England, 1991.
1142. Hunter, 1. C.: Alkaline-manganese batteries, in Modern Battery Technology, C. D. S. Tuck (ed.), pp. 111-125, Ellis Horwood, Chichester, England, 1991.
1143. Brodd, R J.: Batteriesfor Cordless Appliances, Research Studies Press, Letchworth, England, 1987. 1144. Snyder, R N., and Lander, 1. 1.: Rate of hydrogen evolution of zinc electrodes in alkaline solutions,
Electrochem. Techno!. 3(5-6), 161-166, 1965. 1145. Bell, G. S.: The stability of zinc in zinc-chloride/ammonium-chloride electrolytes, Electrochim. Acta
13,2197-2202,1968. 1146. Riietschi, P.: Solubility and diffusion of hydrogen in strong electrolytes and the generation and
consumption of hydrogen in sealed primary batteries, J. Electrochem. Soc. 114,301-305,1967. 1147. Sato, Y., Takahashi, M., Asakura, H., Yoshida, T., Tada, K., Kobayakawa, K., Chiba, N., and Yoshida,
K.: Gas evolution behaviour ofZn alloy powder in KOH solution, 1. Power Sources 38,317-325, 1992. 1148. Dube, G., Renaud, R, and Huot, J. Y.: Amalgamation of battery grade indium-zinc powders, Prog.
Batteries Battery Mater., 10, 151-155, 1991. 1149. Huber, R: Leclanche batteries, in Batteries, K. V. Kordesch (ed.), Vol. I, pp. 1-239, Marcel Dekker,
New York, 1974. 1150. Baugh, L. M., Tye, F. L., and White, N. c.: Corrosion and polarization characteristics of zinc in
concentrated alkaline solution and the effect of amalgamation, Power Sources 9, 303-323, 1983. 1151. Miura, A, Takata, K., Okazaki, R, Ogawa, H., Uemura, T., Nakamura, Y., and Kasahara, N.: Develop
ment of corrosion resistant zinc alloys for alkaline-manganese batteries, Denki Kagaku 1989(6), 57, 459.
1152. Meesus, M., Strauven, Y., and Groothaert, L.: New development in reduction of mercury content in zinc powder for alkaline dry batteries, Power Sources 11, 281-299, 1987.
1153. Glaeser, W.: Gas evolution data on very-Iow-mercury-content zinc powders for alkaline batteries, Power Sources 12, 265-296, 1989.
1154. Dirkse, T. P., De Wit, D., and Shoemaker, R: The anodic behaviour of zinc in KOH solutions, J. Electrochem. Soc. 115,442-444, 1968.
1155. Dirkse, T. P.: The behaviour of the zinc electrode in alkaline solutions, J. Electrochem. Soc. 126, 541-543,1979.
1156. Meeus, M. L., Crocq, G. G., and Lemaitre, C. A.: Metallurgical, structural and electrochemical factors influencing the production of optimal zinc cans for leclanche dry cells by impact extrusion, Power Sources 7, 463-479, 1979.
1157. Mayer, S. T.: Anodic film formation on Cu, Zn, Na, Ag in alkaline media, Thesis, University of California, Berkeley, 1989.
1158. Lindsay, 1. H., and O'Keefe, T. J.: Electrogalvanizing, in Modem Aspects of Electrochemistry, No. 26, B. E. Conway, 1. O'M. Bockris, and R. E. White (eds.), Plenum Press, New York, pp. 165-228.
1159. Hafford, B., Pepper, W. E., and Lioyd, T. B.: Zinc Dust and Zinc Powder, International Lead Zinc Research Organization, New York, 1982.
REFERENCES 457
1160. Feliu, S., Jr., Morcillo, M., Bastidas, J. M., and Feliu, S.: Evolution of the protective mechanisms of zinc-rich paints during atmospheric exposure, 1. Coating Techno!. 65, 43-48, 1993.
1161. Szauer, T., and Miszczyk, A.: Zinc pigmented coatings: Ways of improving performance, Polymeric
Materials for Corrosion Control. Proceedings of the American Chemical Society Conference, Chicago, Sept. 8-13,1985, pp. 849-854.
1162. Montie, J. E, and Hasser, M. D.: Mater. Peiform. 1976(August), 15-18. 1163. Odnevall, I.: Atmospheric corrosion of field exposed zinc, Ph.D. Thesis, Royal Institute of Technology,
Stockholm, 1994.
1164. Odnevall, l., and Leygraf, c.: A comparison between analytical methods for zinc specimens exposed in
a rual atmosphere, J. Electrochem. Soc. 138, 1923-1928, 1991.
1165. Odnevall, I., and Leygraf, c.: The formation of Zn4CI2(OH)4S04·5H20 in an urban and an industrial atmosphere, Corros. Sci. 36, 1551-1567, 1994.
1166. Odnevall, 1., and Leygraf, c.: Reaction sequence in atmosphere corrosion of zinc ASTM STP 1239. American Society for Testing and Materials, Philadelphia, 1994.
1167. International Lead Zinc Research Organization: Zinc Chemicals, ILZRO, New York, 1973.
1168. Bornholdt, R. A, and Perkins, 1.: SEM examination of corrosion product morphology for anodically
polarized zinc, Metallographv 8, 401-409, 1975. 1169. Perkins, 1., Luebke, W. H., Graham, K. 1., and Todd, J. M.: Anodic corrosion of zinc alloysin seawater,
1. Electrochem. Soc. 124, 819-826, 1977. 1170. Tran, Q. T., and Dabosi, E: International Lead Zinc Research Organization Report ZE416, 1994. 1171. Flinn, D. R., Cramer, S. D., Carter, 1. P, Hurwitz, D. M., and Linstrom, P. J.: Materials degradation
caused by acid rain, R. Bahoian (ed.), pp. 119-151, ACS Symposium Series 318, American Chemical Society, Washington, D.C., 1986.
1172. Romagnoli, R., Vetere, V. E, and Armas, R. A.: Influence of the composition of zinc-ethyl silicate paints
on electrochemical properties. J. Appl. Electrochem. 24, 1013-10 18, 1994. 1173. Hime. M., and Machin, W. G.: Performance variances of galvanized steel in mortar and concrete,
Corrosion 49, 858-860, 1993. 1174. Mattsson, E.: Corrosion: An electrochemical problem, Chemtech 15, 234-243, 1985. 1175. Rausch, w.: The Phosphating of Metals, Finishing Publications Ltd., Middlesex, England, 1990. 1176. Bard, A. J., and Wrighton, M. S.: Thermodynamic potential for the anodic dissolution of IHype
semiconductors, J. Electrochem. Soc. 124, 1706-1710, 1977. 1177. Mon'ison, S. R.: Electrochemistrv at Semicolldutor and Oxidized Metal Electmdes, Plenum Press, New
York, 1980.
1178. Tench, D. M., and Gerischer, H.: The phototransition in ZnO at 380 nm studied hy anodic photocurrents, J. Elcctrochem. Soc. 124,1612-1618,1977.
1179. Brown, H.: Zinc Oxide-Properties and Applications, International Lead Zinc Research Organization, New York, 1976.
1180. Butler, M. A., and Ginley, D. S.: Prediction of f1atband potentials at semiconductor-electrolyte
interfaces from atomic electronegativities, 1. Electrochem. Soc. 125, 228-232, 1978. 1181. Blok, L., and De Bruyn, P. L.: The ionic double layer at the ZnO/solution interface. 1. Colloid Interface
Sci. 32, 518-526,1970. 1182. Memming, R.: The role of energy levels in semiconductor-electrolyte solar cells, 1. Electrochem. Soc.
125,117-123,1978. 1183. Pleskov, Yu. V., and Gurevch. Yu. Ya.: Semiconductor Photoelectrochemistry, P N. Bartlett (translation
ed.), Consultants Bureau, New York, 1986. 1184. Ismail, K. M., Sikora, E., and Macdonald, D. D.: Electrochemical Society Extended Abstracts, Vol. 94-2,
Abstract No. 203, 1994. 1185. Parks, G. A: The isoelectric points of solid oxides, solid hydroxides, and aqueous hydroxo complex
systems, Chon. Rev. 65,177-198,1965.
1186. Gerischer, H., and Sorg, N.: Chemical dissolution of oxides: Experiments with si ntered ZnO pellets and ZnO single crystals, Werhl. Korros. 42, 149--157, 1991.
1187. Fruhwirth, 0., Herzog, G. W., and Poulios, 1.: Dark dissolution and photodissolution of ZnO, SlII/ Techno!. 24, 293-300,198:;.
1188. Bernas, A: A few cases of electron emission and transfer in heterogeneous media, J. Ph"s. Chem. 68, 2047-2052,1964.
458 REFERENCES
1189. Miles, M. H., and Gerischer, H.: The ZnJZn(Hg) electrode reaction in binary mixture of water and
n-propand, 1. Electrochem. Soc. 118, 837-841, 1971. 1190. Porter, E C: Corrosion Resistance of Zinc and Zinc Alloys, Corrosion Technology Series, Vol. 6, P. A.
Schweitzer (ed.), Marcel Dekker, New York, 1994. 1191. Romagnoli, R, and Vetere, V. E: The mechanism of the anti-corrosive action of zinc ethyl silicate paints,
Surf. Coat. Int. 76, 208-210, 212-213,1993. 1192. Mackay, W B.: Chapter 11.2 in Corrosion, Vol. 2, L. L. Sheir (ed.), Newnes-Butterworths, London,
1976. 1193. Morgan, J. H.: Zinc anodes for cathodic protection, Carras. Techno!. 272-277, 1957. 1194. Crennel, J. T., and Wheeler, W C G.: Zinc anodes for use in sea water, 1. App!. Chem. 6,415-421,
1956. 1195. Cachet, C, Saidani, B., and Wi art, R: The behaviour of the zinc electrode in alkaline electrolytes. 1.
Eletrochem. Soc. 139,644-654, 1992. 1196. Lohmann, E: Der einfluB des pH auf die elektrischen und chemischen eigenschaften von zinkoxidelek
troden, Ber. Bunsenges. Phys. Chem. 70, 428-434. 1966. 1197. Sze, S.: Physics of Semiconductor Devices, John Wiley & Sons, New York, 1969. 1198. Gehmecker, H.: National Association of Corrosion Engineers Corrosion '91 Conference, Cincinnati,
Ohio, March II-IS, 1991, Paper No. 380. 1199. Vincent, J. 1., and Coon, C L.: The relative effect of paint film thickness on bimetallic and crevice
corrosion, Society of Automotive Engineers, Paper No. 860109,1986. 1200. Cormier, G. 1.: Effective cleaning of zinc and aluminum surface, Society of Automotive Engineers
Automotive Corrosion and Prevention Conference and Proceedings, Dearborn. Michigan, 1989, Paper No. 892555, pp. 7-16.
1201. Yoshikawa, y., Itoh, M., Wakano, S., and Shiota, T.: The properties of organic composite coated Zn-Ni
plated steel sheets, Society of Automotive Engineers Automotive Corrosion and Prevention Conference
Proceedings, Dearborn, Michigan, 1989, Paper No. 892565, pp. 115-120. 1202. Van Eijnsbergen, 1. E H.: Duplex Systems, Elsevier, Amsterdam, 1994. 1203. Nartey, V. K, Binder, L.. and Kordesh. K: Identification of organic corrosion inhIbitors suitable for use
in rechargeable alkaline zinc batteries, 1. Power Sources 52, 217-222. 1994. 1204. Glaeser, W.: Gas evolution data on very-Iow-mercury-content zinc powders for alkaline batteries, Power
Sources 12, 265-296,1989. 1205. Yoshizawa, H., and Miura, A.: Mercury free alkaline manganese batteries, Prog. Batteries Battery Mater.
12,132-139,1993. 1206. Bhatt, D. P., and Udhayan, R: Electrochemical studies on a zinc-lead-cadmium alloy in aqueous
ammonium chloride solution, 1. Power Sources 47, 177-184, 1994. 1207. McBreen, J.: Nickel/zinc batteries, 1. Power Sources 51, 37-44, 1994. 1208. Strauven, Y. A. 1., and Skenazi, A.: European Patent 0441420 AI, 1991. 1209. Gonzalez,1. A., Lopez, W, and Rodriquez, P.: Effects of moisture availability on corrosion kinetics of
steel embedded in concrete, Corrosion 49, 1004-1010,1993. 1210. Thompson, N. G., Islam, M., Lankard, D. R, and Virmani, Y. P.: Effect of environmental factors on
corrosion induced deterioration of reinforced concrete bridge structures, Corrosion '95, National
Association of Corrosion Engineers International, Houston, Paper #4, 1995. 1211. Illston, J. M., Dinwoodie, J. M., and Smith, A. A.: Concrete, Timber and Metals, Van Nostrand Reinhold,
New York, 1979. 1212. Suda, K, Misa, S., and Motohashi, K: Corrosion products of reinforcing bars embedded in concrete,
Corros. Sci. 25,1543-1549,1993. 1213. Yamashita, T.: Corrosion of iron and zinc in concrete, Corros. Eng. 40, 345-357, 1991. 1214. Andrade, M. C, and Macias, A.: Galvanized reinforcements in concrete, Suiface Coatings-2, Chapter
5, pp. 137-182, Elsevier Applied Science, Amsterdam, 1988. 1215. Baker, E. A., Money, K L., and Sanborn, C 8.: Marine corrosion behavior of bare and metallic-coated
steel reinforcing rods in concrete, ASTM STP 629, pp. 30-50, American Society for Testing and Materials, Philadelphia, 1977.
1216. Cornet, I., and Bresler, B.: Galvanized Reinforcement for Concrete-II, International Lead Zinc
Research Orgainization, 1981, p. 1.
REFERENCES 459
1217. Tonini, D. E., and Cook, A. R.: The performance of galvanized reinforcement in high chloride environments-Field study results, International Lead Zinc Research Organization, 1981, pp. 57-88.
1218. Clear, K. c.: Federal Highway Administration, Washington, D.C., FHWNRD-82/028, December 1981. 1219. Slater, J. E.: Corrosion of Metals in Association with Concrete, STP 818, American Society for Testing
and Materials, Philadelphia, 1983.
1220. Federal Highway Administration, Publication No. SA-91-023, HTA-13/6-91 (2.5M) QE, June 1991. 1221. Hansson, C. M.: Oxygen diffusion through portland cement mortars, Corms. Sci. 35, 1551-1556, 1993. 1222. Baldwin, K. R., Robinson, M. 1., and Smith, C. J. E.: Galvanic corrosion behavior at electrodeposited
zinc and Zn-Ni coatings coupled with aluminum alloys, Br. Corros. 1. 29,293-298, 1994. 1223. Baldwin, K. R., Robinson, M. J., and Smith, C. J. E.: Galvanic corrosion behavior of electrodeposited
Zn-Ni coatings coupled with steel, Br. Corros. 1.29,299-304, 1994. 1224. Weast, R. C. (ed.): Handbook of Chemist(\' and Physics, 68th ed., CRC Press, Boca Raton, Florida.
1988. 1225. Zhang, X. G .• Corrosion protection of rebar using a zinc wire, Corrosion 51. 679. 1995. 1226. Dugan, B. P., Stejskal. B .• and Stoneman. A. M.: Survey of highway bridges containing galvanized rebar.
in Proceedings ofhllernational Conference on Corrosion and Corrosion Protection of Steel in Concrete. Vol. I, R. N., Swamy (ed.). p. 157. Sheffield Academic Press, Sheffield, United Kingdom, 1994.
1227. Lee, H. H.: Galvanized steel with improved resistance to intergranular corrosion, Proceedings of the Galvanizing Committee of the Zinc Institute, Chicago, December 1977.
1228. Baker. H. (ed.), Alloy Phase Diagrams, Vol. 3, ASM Metal Handbook. pp. 2.56. 2.206, ASM International. 1992.
1229. Bailey. R. W, and Ridge, H. G.: Corrosion of metals in buildings, Chon. Ind. 1957. 1222-1227. 1230. Edgar, T. V: In-service corrosion of galvanized culvert pipe, in EfieCls of Soil Characteristics 0/1
Corrosion, ASTM STP 1013, pp. 133-143, American Society for Testing and Materials. Philadelphia. 1989.
1231. Cabrillac, c., and Exertier, A.: The effect of coating composition on the properties of a galvanized coating, in Proceedings of the 7th International Conference on Hot Dip Galvanizing, Paris, June 1964. pp. 289-313, Pergamon Press.
1232. Whiting, D., Stark, D., and Schutt, W.: Galvanic anode cathodic protection system for bridge decksupdated results, Corrosion/Xl. International Corrosion Forum, Sponsored By the National Association of Corrosion Engineers. Toronto. Ontario, April 6-10, 1981, Paper #41.
1233. Doig. P, and Flewitt. P. E. 1.: A finite difference numerical analysis of galvanic corrosion for semi-infinite linear coplanar electrodes. 1. Electrochem. Soc. 126. pp. 2057-2063, 1979.
1234. Asphahani. A .. and Uhlig. H. H.: Stress corrosion cracking of 4140 high strength steel in aqueous solutions. 1. Electrochem. Soc. 122, pp. 174-179, 1975.
1235. McCafferty, E.: Distribution of potential and current in circular corrosion cells having unequal polarization parameters, 1. Electrochem. Soc. 124, 1869-1878, 1977.
1236. Morris, R., and Smyrl, W: Current and potential distribution in thin electrolyte layer galvanic cells, 1. Electrochem. Soc. 136,3229-3236, 1989.
1237. Tierra, P, Bernal, M., Molera. P., and Fernandez, L.: Comparative study on the cathodic protection supplied to steel by hot dip coatings, INTERGALVA '91, 3rd International Zinc Coated Sheet Conference. Barcelona, June 1991.
1238. Wetzel, D.: Batch hot dip galvanized coatings, inASM Metals Handbook, Vol. 5, pp. 360-371, Amcrican Society for Metals, Materials Park, Ohio, 1994.
1239. Compton, K. G.: Sources of underground corrosion potential differences, Corrosion 16, 87-90, 1960. 1240. Wilhelm, S. M.: Galvanic corrosion caused by corrosion products, in Galvanic Corrosion, H. P. Hack
(ed.), ASTM STP 978, pp. 23-34, American Society for Testing and Materials, Philadelphia, 1988. 1241. Suzuki, S., Kanamaru. T.. Arai. K., and Morita, J.: Edge corrosion resistance of various coated stecl
sheets, Corrosion/91. National Association of Corrosion Engineers Annual Conference and Corrosion Show, Cincinnati. Ohio. March I I - I 5. 1991, Paper No. 415.
1242. Pryor. M. J., and Keir, D. S.: Galvanic cOITosion: current flow and polarization characteristics of the aluminum-steel and zinc-steel couples in sodium chloride solution, 1. Electrochell1. Sue. 104,269-275, 1957.
1243. Pryor, M. J.. and Keir, D. S.: Galvanic corrosion: Effect of pH and dissolved concentration on the aluminum-steel couple, 1. Electrochem. Soc. 105,629-635, 1958.
460 REFERENCES
1244. Munn, R. S., and Devereux, O. E: Numerical modeling and solution of galvanic corrosion systems, Corrosion 47, 612-634, 1991.
1245. Huang, S., and Oriani, R. A.: The corrosion potential of galvanically coupled copper and zinc under humid gases, Fall Meeting of the Electrochemical Society, Minneapolis, Minnesota, 1993, Abstract No. 91.
1246. LaQue, E L.: Corrosion by sea water, in Corrosion Handbook, H. H. Uhlg, (ed.), p. 383, John Wiley & Sons, New York, 1948.
1247. Wellington, J. R.: The low potential zinc anode in theory and application, Corrosion 17, 122-128, 1961. 1248. Waber, J. T.: Mathematical studies on galvanic corrosion, J. Electrochem. Soc. 101, 271-276, 1954;
102,344-353,420-429,1955;103,64-72, 138-147,567-570, 1956. 1249. Gukild, 1., Husevag, R., and Markestad, A.: Reactivity of zinc and aluminum in fresh concrete, 5th
Scandinavian Corrosion Congress, 28/1-12, 1968. 1250. Townsend, H. E.: Continuous hot dip coatings, inASM Metals Handbook, Vol. 5, pp. 339-348, American
Society for Metals, Materials Park, Ohio, 1994. 1251. Wi art, R., Cachet, C., Bozhkov, c., and Rashkov, S.: On the nature of the "induction period" during the
electrowinning of zinc from nickel containing sulphate electrolytes, J. Appl. Electrochem. 20, 381-389, 1990.
1252. Wang, Y., O'Keefe, T. J., and James, W. J.: Voltammetric evaluation of zinc electrowinning solution containing nickel, J. Electrochem. Soc. 127,2589-2593, 1980.
1253. Maja, M., Penazzi, N., Fratesi, R., and Roventi, G.: Zinc electrocrystallization from impurity-containing sulfate baths, J. Electrochem. Soc. 129, 2695-2700, 1982.
1254. Rashkov, S., Petrova, M., and Bozhkov, c.: The effect of nickel on the mechanism of the initial stages of zinc electrowinning from sulphate electrolytes, Part I, J. Appl. Electrochem. 20, 11-16, 1990.
1255. Rashkov, S., Petrova, M., and Bozhkov, c.: The effect of nickel on the mechanism of the initial stages of zinc electrowinning from sulphate electrolytes, Part II, 1. Appl. Electrochem. 20, 17-21, 1990.
1256. MacKinnon, D. J., and Brannen, J. M.: Aluminum cathode effects in zinc electrowinning from industrial acid sulphate electrolyte, J. Appl. Electrochem. 16, 127-133, 1986.
1257. O'Keefe, T. J., Chen, S. E, Cole, E. R., Jr., and Dattilo, M.: Electrochemical monitoring of electrogalvanizing solutions, J. Appl. Electrochem. 16,913-919,1986.
1258. Hagans, P. L., and Haas, C. M.: Chromate conversion coatings, in ASM Metals Handbook, Vol. 5, pp. 405-411, American Society for Metals, Materials Park, Ohio, 1994.
1259. Johansson, E., and Gullman, J.: Corrosion study of carbon steel and zinc, in Atmospheric Corrosion, W W. Kirk and H. H. Lawson (eds.), ASTM STP 1239, pp. 240-256, American Society for Testing and Materials, Philadelphia, 1995.
1260. Arnold, C. J.: Galvanized Steel Reinforced Concrete Bridge Decks, Michigan State Highway Commission, Research Report No. R-1033, Lansing, December 1976.
1261. Sun, X., and Tsujikawa, S.: Initiation of under film corrosion for zinc in galvanic contact with steel under cyclic corrosion tests, Corros. Eng. 41, 741-750,1992 [in Japanese].
1262. Garcia-Anton J., Perz-Herranz, V., Guinon, J. L., and Lacoste, G.: Use of diiferential pulse polarography to study corrosion of galvanized steel in aqueous lithium bromide solution, Corrosion 50, 91,1994.
1263. Hwang, J., and Zhang, X. G.: Cominco PTC Internal Report, 1995. 1264. Schikorr G.: Relation between the atmospheric corrosion of zinc and nickel and the sulphur dioxide
content of the air, Metal 15, 981,1961 [in German]. 1265. Strekalov, P. v., Agafonov, V. v., and Mikailovskii, Y. N.: Prot. Met. 8, 521, 1972. 1266. Greenburg, L., and Jacobs, M.: Ind. Eng. Chern. 48,1517,1956. 1267. Sydberger, T., and Vannerberg: The influence of the relative humidity and corrosion products on the
adsorption of sulfur dioxide on metal surface, Corros. Sci. 12,775, 1972. 1268. Anderson, E. A., and Reinhard: Chemical removal of corrosion products in the determination of the
corrosion rate of in zinc, ASTM 139, 691, 1939. 1269. Hudson, J. c.: Sixth Report of the Corrosion Committee, Special Report No. 66, Iron and Steel Institute,
1959, p. 25. 1270. Rajagopalan, K. S., and Ramaseshan, G.: Relative corrodibility of zinc and steel in unpolluted
atmospheres, J. Sci. Ind. Res. (India) 18B, 87,1959. 1271. Barton, K., and Beranek, E.: Reaction mechanism of the atmospheric corrosion of metals in moist air
contaminated with sufur dioxide, Werkst. Korros. 10, 377, 1959.
REFERENCES
1272. Newman, K.: Composite Materials, L. Holliday, ed., Elsevier, 1966. 1273. Power, T. C. et al: 1. Am. C(lIlcr. Inst. 1954.
461
1274. Tuutti, K.: Corrosion of steel in concrete, presented at the 6th European Congress on Metallic Corrosion, London, 1977.
1275. Jaenicke, w., and Scheitzer, H.: Z. Phvs. Chelll. (Frankfurt) 52,104, 1967.
1276. Aufenast, E: 1st International Symposium on Batteries, Christchurch. New Zealand, 1958. 1277. Stutz, G.: Ind. Eng Chem. 19(1),52,1927.
1278. Erbse, H., Hauffe, K., and Range, J.: Z. Phys. Chem. N.F 74, 248, 1971. 1279. Stark, D., and Perenchio, W.: The Performance of Galvanized Steel Reinforcement in Concrete Bridge
Decks, Portand Cement Association, Project No. 2e-206, 1975. 1280. Harris, 1. 0.: Soil in the con'osion process, in Corrosion, Vol. 1, L. L. Shreir, cd., p. 2.37, George Newnes
Ltd., London, 1963. 1281. Tang, N. Y: Comment on Fe-AI-Zn.1. Phase Equilihria 15, 237, 1994. 1282. Tang, N. Y, Adams, G. A., and Kolisnyk, P. S.: On determining effective aluminum in continuous
galvanizing baths, GALVATECH '95, Chicago, Iron and Steel Society, 1995, pp. 777-782.
1283. Schikorr, G.: Relation between the atmospheric corrosion of zinc and nickel and the sulfur dioxide content in air, Metal 15, 981, 1961 lin Germani.
1284. Whiting, D. A., Nagi, M. A., and Broomfield, 1. P.: Laboratory evaluation of sacrificial anode materials
for cathodic protection of reinforced concrete bridge decks, Corrosionl95, Paper No. 513, National Association of Corrosion Engineers, Houston, 1995.
1285. Saques, A., and Powers, R.: Sprayed-zinc sacrificial anodes for reinforced concrete in marine service, Corrosionl95, Paper No. 515, National Association of Corrosion Engineers, Houston, 1995.
1286. Brousseau, R., Arnott, M .. and Baldock, B.: Laboratory performance of zinc anodes for impressed current cathodic protection of reinforced concrete, Corrosion 51, 639-644, 1995.
1287. Brousseau, R., Arnott, M .. and Baldock, B.: Improving the adhesion of zinc coatings used to metallize concrete, Mater. Perform. 33,40-42, 1994.
1288. Kessler, R. J., Powers, R. G., and Lasa, 1. R.: Update on sacrificial anode cathodic protection on steel
reinforced concrete structures in seawater, Corrosiol1195, Paper No. 516, National Association of Conosion Engineers, HOllston. 1995.
1289. Wills, D. J.. De Lisco, A., and Gleeson, B.: Intergranular corrosion in continuously galvanized steel, GALVATECH '95, Chicago, Iron and Steel Society, 1995, p. 139.
1290. Kehrer, H. P.: The effect of small impurities on grain boundary corrosion of zinc die castings, Metal!. 28,883, 1974 [in Germani.
1291. Keifets, V L., and Krasikov, B. S.: Dokl. Akad. Nauk SSSR 109, 586,1956. 1292. John, V: Durability of Galvanized Steel Building Components in Domestic Housing, Report No.
WL/SMPIl106EIl09IfD, British Steel, 1991.
1293. Zhang, X. G.: Unpublishcd results, Cominco Product Technology Centre, 1995. 1294. Zhang, X. G.: Galvanic corrosion of zinc and its alloys, 1. Electrochem. Soc. 143, 1472-1484, 1996. 1295. Zinc Chemicals, International Lead Zinc Research Organization, New York, 1983. 1296. Fountoulakis, S. G.: Continuous electrodeposited coatings for steel strip, in ASM Metals Handhook,
Vol. 5, pp. 349-359, Matcrials Park, Ohio, 1994. 1297. Sato, A.: Zinc plating, in ASM Metals Handbook, Vol. 5, pp. 227-235, American Society for Metals,
Materials Park, Ohio, 1994.
1298. Zhang, X. G., and Hwang, J.: Zinc wired rebar, National Association of Corrosion Engineers, Corrosion '96, Paper No. :lOO, 1996.
1299. Townsend, H.: Bethlehem Steel Co., private communication.
Index
Absorption atomic, 155 gas in ZnO, 97 light, 86, 94, 95. 98. 109-117. 350 water. 279, 236
Accelerate tests, 266, 317, 318, 325, 360, 368 Acceleration factor, 266 Accumulation layer, 107 Acetate, 30, 57 Acetic acid, 122, 40 I Acetone, 178, 395, 396 Acidification, 91, 225, 226, 280 Acids, 249, 266, 276, 395, 401 Acoustic effect, III Activation process, 16,45,126, 143, 188, 192,381 Activation energy, 72, 80, 135, 390, 399 Adhesion
coatings, 12,407 cOlTosion products. 163, 296, 169, 175 paint, 15.82.328-330
Adsorption capacitance, 27 corrosion products, 135, 137, 149 current doubling, 113 dissolution and deposition, 34, 38 dissolution of ZnO, 119, 122 double layer, 97,101, 105 f1atband potential, 115 hydrogen evolution, 45 inhibitors, 384 intergranular corrosion, 59 passivation. 85. 91 pitting. 226, 227 in sol vents. 399 of sulfur dioxide, 244 of water layer, 242
Aeration, 141, 305 capacitance, 28 corrosion potential and current, 130, 133
463
corrosion rates, 30 I dissolution, 34, 35, 36 impedance, 57, 62, surface film, 85
Aerosol, 243 Aging, 231 Agitation: see Convection Air, 243
aeration, 174 in concrete, 353 cooling, 12 corrosion products, 162, 174, 176- 178 pollutants, 243, 244 soil, 307
wet storage stain, 237 Alcohols, 112, 178, 293, 393 Alloying, 3
anode, 214, 215 corrosion potential. 144-149 corrosion rates, 258, 260, 385, 387 galvanic corrosion, 184, 198,216 intergranular corrosion, 227-229
Aluminum adsorption of SO" 244 affinity to oxygen, 10 alloying element, 145,363,387,404 anode, 214,403 atmospheric corrosion, 258 corrosion potential, 145,263 galvanic corrosion, 184, 188, 197,202,210 intergranular corrosion, 181, 227 -231 Zn-AI phase diagram, 4
Aluminum oxide, 323 Amalgamation, 385, 391, 404 Ammonia, 285, 375 Annealing, 232, 257, 359 Antimony, 260 Anodes, 184, 186,212,213,305,403
alloying, 214, 215, 404
464
Anodes (cant.)
cathodic protection, 407 efficiency, 213, 215,403 passivation, 403, 407
Anodization, 85-87,115 Area
adsorption, 135 effective surface, 143,202, 343 gal vanic corrosion, 184, 196, 199-121, 214 polarity reversal, 206, 217 surface roughness, 143
Atmosphere, 241 corrosion forms, 184, 261 corrosion product, 158-168, 261 corrosion rates, 245-248 galvanic corrosion, 208 intergranular corrosion, 227 pitting, 220
Auger, spectroscopy, 157, 162 Automobile, 6, 215, 263, 315 Axis, 174
Bacteria, 244, 285, 295, 305 Band bending, 97-100, 104, 108 Band edge, 98,101-103,115,117,120 Band gap, 96, 98, 103, 108, III, 115, 118 Band structure, 96, 103-105, 114, 120 Barrier height, 106, 117 Batteries, 68, 373
cathode, 374 electrolyte, 374 pitting, 220, 225
Benzene, 78, 395,396 Benzoate, 299 Binding medium, 337, 344 Black film, 86 Blistering, 233, 315, 321 Bond strength, 359 Bonding, 159; see also Adhesion Brass, 3, 184, 375 Breakdown
of passivation, 66, 89, 221, 225 pitting. 221 of semiconductor, 107-109, 115, 119
Bridge, 51, 351, 363 Buffering, 84, 91, 173 Bundle, 262
Cadmium, 184, 198,231,388,404 Capac i tance
adsorption, 35 corrosion product film, 62, 63 double layer, 27, 55, 62, 63 space charge layer, 100, 103, 106 surface coatings, 56
Capillary effect, 88, 237, 242, 245, 307, 353 Car: see Automobile Carbon, 245,338, 346.374 Carbon dioxide
anodiztion, 86 corrosion products, 168, 170, 176 corrosion rates, 270, 287, 289 galvanic corrosion. 203 pitting, 219 polarity reversal, 203 solubility in water, 284
Carbonates corrosion products, 158-181, 237, 278 dissolution. 31 formation condition, 23, 24 278 intergranular corrosion, 234 passivation, 77-80, 85-87 polarity reversal, 203
Carbonation, 358, 366 Casting, 7
INDEX
Catalytic reaction, 34, 38, 45,108,113,269,338 Catalyst, 75 Cathodic protection, 213, 359, 407 Cells, 195,201,301,334,373 Cement, 352 Charge carriers, 96, 105, 109, 110 Charge transfer. 32, 59, 62, 10 I, 104, 115, 122, 333 Charge transfer coefficient, 35, 40, 44, 48 Chemicals: see Ions Chipping, of paint, 328, 331 Chlorides; see also Ions
adsorption, 27, 28 battery electrolytes, 374, 384 complexing with zinc, 24 in concrete, 351, 357 conductivity, 13, 127 corrosion current, 128, 135 corrosion products, 171, 172, 174, 177 corrosive agents, 357
galvanic corrosion, 198-202 intergranular corrosion, 229 marine, 252, 255, 266, 291 pitting, 221-223 in solutions, 296
current doubling, 113 dissolution. 31. 124 flux, II impedance, 60 oxygen reduction, 51 passivation, 78 passivation breakdown, 89 plating bath, 13 polarity reversal, 204 road salt, 263 salt spray test, 270
INDEX
Chlorides (cont.)
in solvents, 395, 399 vapor, 400
Chromium, 184. 260 Chromate, 85; see also Chemicals Chromating,16 Chromate film
characterization, 16, 17, 171. 175 effect on corrosion, 144, 238, 260, 329, 362 properties, 17, 180
Clay, 305, 311 Cleaning, 11, 12 Cleavage, 165, 170 Climate, 254 Coating life, 256 Coating weight, 323 Coating thickness, 9 Coatings, 12, 14 Cobalt, 188 Colloidal solution, 16,305 Composite coatings, 323 Complexes, 25, 33-39 Condensation, 233, 237, 341, 252 Concrete, 184,227,351,403,407 Conductivity
concrete, 354 corrosion products. 187 galvanic corrosion, 188,213 metal. 2 pitti ng, 225 soil, 305, 307, 310 solution, 26, 27, 301 surface films, 74, 79, 115 waters, 285 zinc oxide, 95, 96, lIS
Contact line, 195,218,277 Contaminants, 161, 163, 176,241,265 Convection, 72, 75. 88, 139, 141,275 Conversion coatings, 16,260 Conversion factors, 129, 130 Cooling, 12, 162 Coordination number, 25 Copper, 145,245,391
alloying elements, 145, 146,307 galvanic corrosion, 184, 194, 196,210
Corrosion, 54 Corrosion current, 125,314,365
calculation, 125-127 correlation to weight loss, 153 definition, 125 measurement techniques, 127, 128 relation to corrosion potential, 130, 368
Corrosion environments atmosphere, 241 batteries, 373
concrete, 351 Corrosion environments (cont.)
gaseous, 399 lab testing chambers, 267, 270, 272 organic sol vents, 393 paints, 315 soils, 305 solutions, 296 waters, 283
Corrosion forms, 183,293 Corrosion potential, 125-156
in concrete, 363, 367 definition, 125 painted, 332 pitting. 224 relation to corrosion current, 153 respect to passivation. 68. 85, 207 in soil, 211, 212. 312 in solution, 85.133-153 zinc-rich paints, 347, 348
Corrosion products, 157,261,399 characterization techniques, 157 classification, 157 corrosion current, 141, 149. 152 corrosion potential, 149, 152 effect on corrosion, 54, 178 effect of climate, 254 galvanic corrosion, 184,202,210.224,340 impedance, 62, 63 oxygen reduction, 51, 53 relative to weight loss. 272 stability, 31, 165, 170, 176 transformation, 168-176
Corrosion rates, 130 atmospheric, 245 in concrete, 360-363, 366 galvanic corrosion, 208-212 gaseous, 400-402 intergranular corrosion, 228-234 metals other than zinc and steel, 248, 292 in organic sol vents, 395-398 pitting, 219 simulated tests, 266-277 in soil, 308-311 in solutions, 296-304 under-paint, 319 units, 129, 130 in waters, 286-296
Corrosion tests, 211, 237, 317, 325 Cosmetic corrosion, 319, 320, 360. 378 Countries, 248 Cracking, 183,238, 358, 364 Creep, 2 Creeping, 319-323 Crevice, 218, 236,357
465
466
Crevice corrosion, 183 Cross section, 107 Crystal
polycrystal, 115-117, 144 powder, 94 size, 94, 171, 175,320 zinc single crystal, 27, 32, 47 165, 174
Crystal structure corrosion products, 160, 161, 165, 175 zinc, I zinc oxide, 94
Crystal orientation breakdown, 108 capacitance, 28 cast and rolled products, 2 corrosion potential, 143 corrosion rates, 143, 302 decomposition, 122 dissolution and deposition, 35 photocurrent, III pitting, 225 standard potential, 20
Curing, 329, 337, 352 Current
dark current, 105 distribution, 184, 192, 194 limiting current, 31 peak current, 68, 69, 82, 83 saturation current, 110 versus potential curves: see I-V curves
Current collector, 375, 390 Current distribution, 192 Current doubling, 111-113 Current efficiency, 32, 79, 80 Current output, 404 Curvature, 39 Cut edge, 216, 262 Crystallization, 16, 323 Cyclic test, 216, 272, 318, 325 Cyclic wet/dry pattern, 254, 272
Deaeration: see Aeration Decomposition
corrosion products, 173, 176
HP2,51 zinc oxide crystal, 110, 119-124
Deformation, 303, 331 Deicing, 263 Delamination, 315, 333 Dendrite, 39, 377 Depassivation,91 Depletion layer, III Depolarization, 207 Deposition, 36-39, liS, 117
Depth intergranular corrosion, 227 pitting, 217, 220, 225 sea water, 285, 294
Desorption, 34, 101; see also Adsorption Dew, 242 Dezincification, 149 Die casting alloy, 3, 7, 227 Dielectric properties, 74, 89, 395 Diffusion
in concrete, 354 deposition, 39 dissolution, 31, 35, 162 of electron and hole, 110 of hydrogen, 40, 139 of mercury in zinc, 386 in organic solvents, 396 in paint, 316 passivation, 62, 69-73, 77, 80, 84, 88 of salts, 316, 357 of various ions, 26 of zinc in zinc coatings, 8 in zinc oxide, 97
INDEX
Diffusion coefficients, 25, 40, 71, 190, 316, 354 Diffusion length, 110 Discharging, 377, 390 Disintegration, 32 Distance
from city center, 244 gal vanic action, 20 I, 209, 213 from sea coast, 244, 252 from waterline, 301
Dislocation, 39, 225 Dissolution, 29
at corrosion potential, 125-129 corrosion products, 30, 36, 168, 171 efficiency, 32 exchange current, 30, 31 inhibition, 62 paint delamination, 333 at passivation, 66, 80, 87-89 pitting, 226 process, 62 of zinc oxide, 119-124
Distilled water, 140, 169, 170, 286 intergranular corrosion, 227 pitting, 217, 224 polarity reversal, 203, 204
Donor,96, liS, 118, 122 Doping, 117 Double layer, 27-29, 55, 62,115, 173,396 Drying
accelerated test, 267, 325 battery, 221
INDEX
Drying (coni.)
concrete, 356 corrosion current, 144 corrosion products, 160, 177, 242, 254 wet storage stain, 257
Ductility, 227, 238, 359 Duplex coating, 323 Dust, 215, 245, 316 Dye, III
Edge, 196,217,277 Electrochemical techniques, 29, 54, 153 Electrogalvanizing, 13, 14 Electrolumineseces, 114 Electron acceptor, 96 Electrolyte
battery, 374, 379 conductivity, 26, 27. 191, 192 near surface, 32 pitting, 225, 227 resistance, 55, 62, 144, 211 thickness, 190, 192-197,213,276
Electroplating, 13, 14,260 Electrowinning, 19, 39 Elevation, 252 EMF series, 144, 185, 186,211 Enthalpy, 390 Epoxy, 339 Equilibrium, 19,20-25, 120,127,133 Equivalent electrical circuit: see Impedance Etch, 74, 102,221 Eutectic phase, 3, 13, 323 Exchange current, 30, 36, 42,125,127,130,151,
396 Extracts, 356 Extrusion, 232
Faradaic process, 32 Fatigue, 369 Fermi level, 96, 98, 100-103 Field strength, 90, 104 Film: see Surface films Flake, 7 Flame: see MetaJlizing Flat band, 97, 98 Flatband potential, 100
definition, 98 determination, 100 oxide film, lIS, 116, 118,202 single crystal, 100, 10 I
Flow, 144, 178, 184,266,289,294,348 Flux, II, 110,237,354 Fluxing, II Fly-ash,269 Fog, 243
Formability, 321 Formic acid, 112, 113
Galfan, 12, 162,259,263 Galvalume, 12, 162,263,324 Galvanneal, 12, 145, 147, 148,263 Galvanic corrosion, 183, 261, 312, 332, 339
corrosion rate, 198,201,210-213 of coupled metals, 184, 196-198, 210 definition, 183 factors, 188, 209 testing, 184,209,211 theory, 185-196
Galvanic current, 185, 191, 194-197,213 Galvanic protection, 213
anodes, 215 coatings, 215 definition, 185 field data, 212 throwing power, 213 zinc-rich paint, 339
Galvanic series, 187,211 Galvanizing: see also Electroplating
batch process, 10 classification, 7, 8 continuous process, II
Galvanized steel, 256 coating methods, 7, 256 galvanic protection, 213 life, 256 pitting, 203, 219, 225, 308 polarity reversal, 203 premature darkening, 262 surface treatment, 12 wet storage stain, 183, 236
Galvanized rebar, 359 Gases, 184,339
CO,: see Carbon dioxide H,: see Hydrogen H,S,243,268,285,401 N,,242 NH3,243 0,: see Oxygen SO,: see Sulfur dioxide
Gassing, 224, 338, 378 Gel, 353, 382 General corrosion, 183, 225 Geometrical effect, 185, 186, 189-192, 213 Gravitation, 217 Grain, crystal
orientation, 2 potential, 144 shape, 74 size, 3, 230, 235, 388
Grain boundary, 3, 32, 225, 352
467
468
Grid,390 Grinding, 143
Hardness, 284 Hardware, 213 Heat treatment, 231 Highway, 262 Hole, 96, 217 Hot dip: see Galvanizing Hot water
corrosion products, 168-170, 179 corrosion rates, 288, 289 pitting, 219, 291 polarity reversal, 203, 208
Humidity atmosphere, 241 intergranular corrosion, 226 test, 267 time of wetness, 248, 252, 280 wet storage stain, 183, 236
Hydration number, 25 Hydration process, 36, 45, 67, 352 Hydration shell, 39 Hydrogen, gas
anode,214 corrosion rate in water, 299 diffusion, 40, 139 intergranular corrosion, 235 measurement device, 378 rebar/concrete surface, 359 solubility, 40 surface preparation, 78 units, 129
Hydrogen embrittlement, 183, 238 Hydrogen peroxide, 51, 107, 112 Hydrogen reaction, 39
corrosion potential, 134 exchange current, 40, 42 inhibition, 47 over potential, 41, 45, 230 oxide film, 45 thermodynamics, 21
Ice, 237 Illumination, 109 Impedance, 54
corrosion current, 115 dissolution, 35 equivalent circuit, 56, 62 paints, 318, 340 polarization resistance, 127 semiconducting film, 118 spectrum, 56-61, 74 thin-layer electrolyte, 277
Impurities, in electrodes, 47 electrolyte, 39, 51, 227 grain boundaries. 235 water, 207 zinc, 47, 183,258,377,404 zinc oxide, 93, 96, 100
Incubation, 319 Indium, 387 Indoor atmosphere, 16 I. 162, 264 Inductance, 55 Inhibitors, 359, 384
INDEX
Interfaces, 55, 67, 90, 103, 137,235,316,339,359 Intergranular corrosion. 129, 183.225.239,407 Intermetallic compounds, 3. 8-12, 145, 227-238 Ionic properties, 25-27 Ionic strength, 72 Ionization, 135 Ions. in solutions
Ag+, 114, 175 As'+, 46, 112, 382 AsO~-, 85, 89 BO;-, 89, 116, 117,221 Br-, 51, 60, 89,113, 124, 135,383 BrO,,32 Ca2+~ 85. 137. 140, 174, 179,205,357 Cd'+, 220 Ce' +, 137, 180 CH,CO;,89 Ct: see Chlorides CW, 13, 112 C10:;, 32, 137 CIO.;, 28, 51, 89, 113, 128. 171,384 Co2+, 298 col-: see Carbonates complexing agents, 25 concentration, 298 corrosion current, 131, 135, 145, 150 corrosion potential, 131, 135-137, 145, 149 corrosion products, 172, 177 corrosion rates, 297, 298 current doubling, 113 crO;-, 16,31,89,223 Cu'+' 46,175,201,291,382 diffusion coefficients, 26 exchange current, 30 F-,89 Fe'+, 46, 382 Fe(CN)t, 103 f1atband potential, 101 galvanic corrosion, 184,201,204 HCOO-112 HP-, 51, 53 hydrogen evolution, 41
INDEX
Ions, in solutions (collt.)
1-,89, 107. 113, 123 In'+.383 I-V curve ofZnO. 106 K+, 45 Mg2+, 201 MnO:;, 31, 113 MoOt, 89 Ni2+, 39, 46. 382 Na+,201 NH;, II. 13,28,34,46,60,128, 173,244,374,
384 NO~, 30, 51, 89,107,112,135,137,140,205 passivation, 66, 89, 90 Pb2+, 36, 47. 73, III. 220. 383 pitting, 222 PO~-, 51. 115, 139. 171,223 S2-,296 Sb'+, 46, 382 SiOl-,205 Sn2+, 31, 46, 73, 383 SOl-, 137 S01-, 14,40,51,57, 113, 135, 140, 171,201,
244,384 WO~-, 31. 135, 136, 223 Zn2+, 133
battery, 373 current doubling, 113 corrosion current, 134 corrosion potential, 130, 133. 138 dissolution, 29, 63, 396 hydrogen reaction, 46 photo decomposition, 122 standard potential, 19
Zn(OH)i-. 113 battery, 381 corrosion potential, 134 dissolution, 29, 63 hydrogen reaction, 46, 47 passivation, 75, 77 solubility, 22
Iron, steel adsorption of S02' 244 alloying element, 198,216,293,404 concrete reinforcement, 358 corrosion potential, 145,312 corrosion products, 202, 332 corrosion protection, 208, 210-217, 259 corrosion rates, 208, 210, 212
atmospheric, 246, 252 gaseous, 402 soil,310 under-paint, 263
Fe-Zn phase diagram, 5
galvanic action, 184, 188.203,208. 345 Iron. steel (cant.)
intermetallic compounds, 3, 219, 279 phosphatising, 330 solubility in zinc, 3
IR drop, 74, 403 Isotherm, 105 I-V curves
breakdown of ZnO, 108 cathodic reaction on ZnO, 106 corrosion current, 128 decomposition ofZnO, 121 galvanic corrosion, 184,200 intergranular corrosion, 233 passivation, 67, 68, 73. 74, 79-84 passivation breakdown, 89 photocurrent, 110 pitting, 221 in soil, 313 in solvents, 399 zinc rich paints, 345
Kelvin probe, 184 Kinetics
corrosion processes, 125-127 dissolution, 29-39 electrochemical techniques, 29 galvanic corrosion, 188-191 hydrogen reaction, 39-46 oxygen reduction, 48-53 passivation, 68-85 semiconductor electrochemistry, 105-115
Kink sites, 35, 122
Lattice constant, I, 94 Leaching, 356, 358 Lead, 258
galvanic corrosion, 184,210 intergranular corrosion, 227, 229-231
Leclanche cell, 38, 220, 225, 373 Life, 256, 333, 360, 375 Lifetime, 113. 115, 346 Light
absorption, 86, 94,109-115,350 deflection, 94, 95 emission, 114, 115 penetration depth, 110 transmission, 94, 95
Linear polarization, 54 Loam, 305 Local corrosion, 185, 200 Localized corrosion, 66, 91,129,225 Luminescence, 114
469
470
Magnesium, 145,260,388 anode,214,403 gal vanic corrosion, 184, 210 intergranular corrosion, 229
Manganese, 145, 146 Mass transport, 71, 77, 88 Mechanisms
atmospheric corrosion, 278 carrier recombination, III current doubling, III deposition, 38 dissolution, 32 formation of corrosion products, 181 hydrogen reaction, 43 intergranular corrosion, 235 metallic surface film, 86 oxygen reaction, 49 passivation, 75, 80 passivation breakdown, 89, 225 pitting, 225 polarity reversal, 207 premature darkeni ng, 262 protection by zinc rich paint, 339 under-paint corrosion, 333 wet storage stain, 236
Mechanical properties, 2. 90. 231. 234 Melting point. I Meniscus, 30 I Mercury. 385 Metallizing. 6, 407 Metallography. 8, 9. II Metallurgical effect, 229. 302 Metals (other than zinc and steel)
adsorption, 244 atmospheric corrosion, 248 gal vanic corrosion, 184. 198. 210 hydrogen exchange current, 42 sea water corrosion. 292
Microstructure. 232 Mill scale, 347 Minerals, 283 Mixing, 53 Mobility. 25-27. 36 Moisture. 175,237,242.355,400 Monolayer, 29, 78. 79, 82 Morphology, 39, 74. 75,163-165,172.175,244 Mortar. 358, 365 Mott-Schottkyequation. 100
Nernst equation. 133, 138 Neutralization, 16 Nickel, 184, 198,210,260.387 Normal corrosion, 185.210,211 Nucleation, 16,77,79.171
Ohmic effect CUlTent measurement, 156 gal vanic corrosion, 188. 190. 196 sacrificial protection. 403
INDEX
Open circuit condition, 68. 82. 87. 125, 188,225. 345
Orbital. 103 Organic substances. 384. 393. 402 Oscillation. 39, 74 Osmatic pressure, 316 Overpotential, 127. 188.386
anode. 215.403 dissolution. 33 hydrogen evolution, 41. 43 oxygen reduction. 50 passivation. 66
Oxidation of zinc, liS. 162 of water. 120. 122
Oxide: see Zinc oxide Oxygen
in concrete. 354 diffusion, 51. 53. 274,195.334 diffusion coefficient, 48 effect on corrosion, 141-143, 181 evolution, 78, 88 galvanic corrosion, 190 intergranular corrosion, 287 kinetics, 48-54, 202 paints, 334, 339 pitting, 218 polarity reversal, 203, 206-208 stability, 21 standard potential, 48 solubility, 48, 284, 298
Paint, 328. 337 adhesion, 15,82.328-330 galvanic corrosion, 184 paintability, 12, 14 permittivity, 316 properties, 316. 337 thicknesi>, 324
Particles, 339, 341, 343, 352, 389 Particulate film, liS, 117 Passivation, 65-92
in batteries, 375, 376 breakdown, 66. 81, 87. 89-91. 221, 225 condition, 21, 23, 67, 78 definition. 65, 87 effect on corrosion, 130-133, 138, 191,233 overpotential, 66 passivation current, 67, 75, 87-89 passivation potential, 67,81, 84, 85
INDEX
Passivation (COlli.)
polarity reversal 207-208 process. 67. 74-77 time to passivation. 65. 70-73. 77. 78
Passive films: see a/so Surface films characterization. 75. 78 properties. 75. 93.115-118.149.179.207 stability. 67. 86-92. 299
Passive state. 65. 67. 87. 88, 208, 363 Paste, 352 Permeation, 176. 178. 215, 316, 339, 353 Perforation, 221, 319 pH, 137.206.298
buffer, 82. 84, 173 capacitance. 27 concrete. 357 corrosion current. 131. 137-140, 148, 152 corrosion potential, 131, 137-140, 148, 152 corrosion products. 171-173. 273 corrosion rates, 273. 298, 311 dark potential, 102 decomposition ofZnO, 119, 122 flatband potential, 102-105, 115, 116 intergranular corrosion, 233 passivation, 66, 80, 83, 299 passivation breakdown, 89 pitting. 222 polarity reversal, 206 soil, 309-311 solubility, 22. 23. 299. 357 waters. 285
pH-potential diagram, 21,23,374 Phase diagram, 4, 5 Phosphates, as chemicals
corrosion potential. 136 dissolution, 31. 62 oxygen reduction, 5 I passivation, 80-84, 86, 89 zinc-rich paint, 346
Phosphate coating, IS, 171, 180,329,334 Phosphating. 15,80.260.329 Photo: see Light Photo catalysis, 113. 269 PholOcurrent. 95, 98. 100. 109
current doubling, III dissolution of ZnO. 121-123 luminesces, 115 passive film, 116, 117
Photoeleetrochemistry, 109-118 Photoluminensece, 114 Photopotential, 109, 110, 117, 207 Physical properties, I. 93, 94 Pickling. I I Pigment, 316, 338. 341, 345 Pipe, 217. 262, 291, 312
Pitting, 217, 290 characterization, 66, 89. 217 corrosion current, 129 corrosion rate 219-220 galvanic, 184 in hot water, 290 occurrence, 202. 217, 261, 263. 293. 308 measurement, 217 mechanism, 89-91
Pitting potentia!, 66, 89, 217, 221-224, 226 Plastics, 184,213,218,401 Plate, 209 Polarity reversal, 179, 184, 202-208. 219, 407 Polarization resistance, 127
conductivity, 367 corrosion rate, IS I, 154 impedance, 51 zinc-rich paint, 342, 349
Polarization parameter, 192 Polishing, 32, 143.225 Pollutants, 242, 249, 269 Polymers. 316, 338 Polymerization, 82 Porosity, 74, 353 Potential, electrode
breakdown potential. 66 dark potential, 102, 104 half-wave potential, 51 Helmholtz potential, 101-105 mixed potential, 125 open circuit potential. 68,82,87. 125, 188 photopotential, 109, 117,207 pitting potential, 221 rest potential, 102, 104, 125,221, 222 reversible potential, 39, 65, 138, 185 standard potential, 19. 39
Potential barrier: see Surface barrier Potential bias, 105, 114 Potential distribution, 184. 192, 195 Potential of zero charge, 28, 104 Pourbaix diagram, 21 Powder, 170, 177 Premature darkening, 262 Pressure, 170, 291 Primer, 316, 323
Quenching, 232 Quantum yield, efficiency, 110, 113-117
Radiation, 241 Radicals, 112, 114,285 Rain, 158, 163, 164,242
galvanic corrosion, 211 synthetic, 271
Rebar, 359
471
472
Recombination, 98,110, III, 113-115 Recrystallization, 2, 12 Red rust, 256, 320 Redox couple, 98,105-108
corrosion potential, 127 dissolution of ZnO, 122, 123
Redox potential, 120 Repassivation,91 Resin, 316 Resistivity: see Conductivity Resource, zinc, I Rock,305 Rolling, 303 Rolled zinc, 7 Roof,249 Rotating electrode, 40, 51, 68-70, 82, 123, 143 Roughness: see Surface Rubber, 337,401 Runoff, 164,250
Sacrificial protection: see Galvanic protection Salinity, 252 Salt, 358 Salt layers, 67, 88, 223, 266, 270, 318, 325 Salt spray test, 266, 270, 318, 325 Salvation, 36 Sample, for testing, 188, 195, 196
orientation, 72, 191, 254, 262 position, 201, 301 preparation, 143 shape, 191, 254 size, 191,201
Sand,305,311,352 Scanning rate, 156 Scribe, 323 Sea water, 169-171,284,291
corrosion rates, 291 galvanic corrosion, 184, 187,211 intergranular corrosion, 227
Sealing, 313, 377 Season, 158,247,249 Self corrosion, 214, 403 Semiconducting behavior, 75, 89, 93-124
polarity reversal, 202, 208 Sensitization, 110 Sheet, 237,255,258,262 Sheltering
corrosion products, 160-166 corrosion rates, 255 galvanic corrosion, 211
Sherardising, 7 Ship, 215 Silt, 305 Silicate, 313, 338 Silicon, 9, 257
Silver, 260, 387, 391 Slip, 3 Snow, 242 Soil,305
galvanic corrosion, 184,211 pitting, 220
Solidification, II. 353 Solubility
air, 49 alloying elements, 3, 229, 230 hydrogen, 39 minerals, 284 oxygen,48,49, 298 passive films. 87. 91, 299 salts in organic solvents, 393
INDEX
zinc compounds, 22, 66, 91, 158, 171. 299 Solutions, 171-176,201,204,219.296; see also
Electrolytes and Ions Solvation, 274, 280, 393, 396 Solvent, 170.393 Space charge layer, 98, 100. 104-106, 108 Spalling, 358, 364 Spangle, 10 Spectra, 116, 117 Splash zone, 294, 365 Spray, 6, 7 Stability
carbonates, 23 concrete, 358 corrosion products, 31, 165, 170, 176 hydroxides, 21 oxide, 21,119-124 passivation, 87-92, 299
Stain. 257, 268, 349 Stainless steel. 184, 196, 198, 210 Steam, 235 Steel: see Iron Steady state, 35, 135, 153. 155 Stern-Geary constant. 127 Stirring, 139. 168, 173 Strength, 227, 234, 317, 352. 359 Stress, 90, 231, 239, 303 Strain, 332 Stress corrosion, 183. 184, 238 Superplasticity, 2 Surface area, 143, 149,341.343,375,390 Surface barrier, 105-110 Surface condition, 143, 144.202,347,363 Surface films; see also Corrosion products and
Passive films catalytic effect, 45, 75 classification, 67 color, 74, 75, 80, 85-87, 204 corrosion potential, 207 formation, 75-78, 80, 84, 399
INDEX
Surface films (conI.)
impedance. 62. 63. 79 inhibitive effect. 3 I. 5 I metallic, 73, 80, 86 nature, 75, 77-80, 84-86, 89, 178-181 phase transformation, 168-17 I. 208 semiconducting, 102, 115-118,202 stability, 78,87-92
Surface roughness, 149, 150 Surface states, 101.103, 105, 107, 117, 140 Surface structure, 242 Sulfur dioxide
adsorption, 245 air pollutants, 243 corrosion mechanism, 280 corrosion rates, 249, 280, 400 intergranular corrosion, 233 solubility, 249
Surface treatment. 260, 302, 388 chromating, 16, 180 gal vanizing, 12 phosphating, 15 plming, 13 ZnO crystal, 102, 103, I I 1
Sweep rate, potential, 69, 80, 82, 88
Tafel slope corrosion current, 125-127, 153, 156 determination, 127, 128, 156 dissolution, 30, 33, 34, 36-38 hydrogen reduction, 40, 41, 48 oxygen reduction, 49
Tank,208, 214,219,237,268,403 Temperature, 140,203
anode efficiency, 406 corrosion products, 168-170 corrosion rates, 14 I. 390 passivation, 78, 80, 85 pi tli ng, 217, 220 polarity reversal, 203 potential,20, 140, 141 semiconductor, 97 solubility, 48
Texture, 10, 15, 232, 303, 306, 390 Thermodynamics, 19-25 Thin-layer electrolyte, 274
capacitance, 28 concentration, 276 corrosion potential, 142 gal vanic action, 176, 193, 333 hydrogen reduction, 276 oxygen reduction, 53, 279
Throwing power, 213, 217, 333 Tidal zone, 293, 294, 364 Time, effect, 149, 144,206
concrete curing, 353 Time, effect (conI.)
corrosion current. 144, 150, 152 corrosion potential, 149. 151. 152 corrosion products, 158, 163-165, 170 corrosion rates, 253, 293 galvanic corrosion, 193 gassing, 379 paint curing, 339 polarity reversal, 206
Time of the day, 253 Time of the year, 163 Time of wetness, 248, 252, 280 Tin, 184, 198,230,260,387 Titanium, 184, 185, 196, 198 Transient effect, 35, 154, 184 Transpassive state, 65 Transport number. 27 Tunnelling, 108. 109. 115 Twinning, 3
Ultraviolet light, 94, 317 Under-paint corrosion. 315 Under-vehicle corrosion. 263 Underground. 213. 217, 305 Uniform corrosion, 185
Valence, 32 Vanadium, 260 Vapor, 178.228, 269. 387 Viscosity, 73, 393
Wall. 249 Water, 9
in concrete, 355 content in air, 242 corrosion products, 168-171. 177 intergranular corrosion. 227 pitting, 219 polarity reversal, 203 in solvents, 393
Water drop, 274 Water line, 301, 31 I Water spray, 270 Weather, 252, 339 Weathering, 305, 347 Weight loss
relation to corrosion current, 129. 151-156 relative to corrosion products, 163 units, 141-143
Wetting, 177,241,271,325,344 Wet storage stain. 183.236.262 White rust. 237 Wire, 176,209. 254. 359 Wind. 242. 245
473
474
Woods, 401
X-ray, 94, 157,207,224
Yellow rust, 257
Zinc alloys; see also Alloying and Zinc coatings battery anodes, 387 corrosion current and potential, 144-149 corrosion products, 176 die-casting. 3, 7 sacrificial anodes, 403
Zinc coatings, 12, 14,321. 407 applications, 6. 322 classification, 3 composite coatings, 323 corrosion products, 180 duplex coatings, 337 gal vanic corrosion, 216 production methods, 7-14 under-paint corrosion, 321 under-vehicle corrosion, 263 Zn-AI, 12, 145,324
Zn-Co, 118, 145-147, 181 Zinc coatings (cant.)
Zn-Cr, 145,216 Zn-Cu, 145. 146,216 Zn-Fe, 12, 145, 147, 148,263,323 Zn-Mg. 145,216 Zn-Ni, 118, 145-147, 184,216 Zn-Ti, 145,216
Zinc dust, 7, 316, 338, 341 Zinc oxide, 93-124
applications, I, 93, 338 corrosion products. 157.263,399 oxide films: see Surface films photo electrochemistry. 107 physical properties, 93-97 semiconducting property, 97 stability, 107-109
Zinc powder, 7, 375, 381,389 Zinc products, 3, 6 Zinc-rich paint, 183, 184,215,337 Zinc tape, 7 Zincate, 382 Zincrometal, 338
INDEX