Corrosion Data
Transcript of Corrosion Data
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Environment Acetaldehyde Acetaldehyde Acetaldehyde Acetaldehyde Acetaldehyde Acetaldehyde Acetaldehyde Acetaldehyde
Material Group Miscellaneous
Material Family
Material Magnesium Platinum Silver Titanium Titanium Zr7O2 304 316
Magnesium and alloys Miscellaneous Noble metals Miscellaneous Noble metals Refractory metals and Titanium and alloys alloys Refractory metals and Titanium and alloys alloys Refractory metals and Zirconium and alloys alloys Stainless steels Austenitic Stainless steels Austenitic
Rate (mm/yr) or Rating D (Poor) 0.05 max 0.05 max 0.001 A (Resistant) 0.05 max 0.003 0.1
Rate (mils/yr) or Rating D (Poor) 2 max 2 max 0.04 A (Resistant) 2 max 0.1 4.6
Localized Attack
UNS
Condition/Comment
Concentration Temperature Temperature (Vol %) (deg C) (deg F) All Pure Pure 75 100 200-400 200-400 149 149 Boiling 61 118 390-750 390-750 300 300 Boiling 142 245
P04995 P07010
R60702 S30400 Rayon processing; field or pilot plant test; no aeration; rapid agitation S31600 Chemical processing; field or pilot plant test; slight to moderate aeration; rapid agitation. Plus 14.3% acetic acid, 0.3% formic acid, water remainder S31600 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 8% acetic acid, 3% low boilers, water remainder S31600 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 12% acetic acid, 3% low boilers, water remainder S31600 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 10% acetic acid, 3% low boilers, water remainder S31600 Chemical processing; field or pilot plant test; slight to moderate aeration; rapid agitation. Plus 14.5% acetic acid, 15% water, 0.5% formic acid S31600 Rayon processing; field or pilot plant test; no aeration; rapid agitation S31600 Rayon processing; field or pilot plant test; no aeration; slight to moderate agitation. Water remainder S31700 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 10% acetic acid, 3% low boilers, water remainder S31700 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 12% acetic acid, 3% low boilers, water remainder S31700 Chemical processing; field or pilot plant test; no aeration; slight to moderate agitation. Plus 8% acetic acid, 3% low boilers, water remainder S31700 Chemical processing; field or pilot plant test; slight to moderate aeration; rapid agitation. Plus 14.3% acetic acid, 0.3% formic acid, water remainder S31700 Rayon processing; field or pilot plant test; no aeration; slight to moderate agitation. Water remainder S36300 10% H2O
100 100 70
Slight pitting
Acetaldehyde
Stainless steels
Austenitic
316
A (Resistant)
A (Resistant)
70
104
220
Acetaldehyde
Stainless steels
Austenitic
316
A (Resistant)
A (Resistant)
50
92
198
Acetaldehyde
Stainless steels
Austenitic
316
0.003 max
0.1 max
50
92
198
Acetaldehyde
Stainless steels
Austenitic
316
0.003
0.1
70
99-102
210-215
Acetaldehyde Acetaldehyde
Stainless steels Stainless steels
Austenitic Austenitic
316 316
0.003 A (Resistant)
0.1 A (Resistant)
100 97-98
61 66
142 150
Acetaldehyde
Stainless steels
Austenitic
317
A (Resistant)
A (Resistant)
50
92
198
Acetaldehyde
Stainless steels
Austenitic
317
A (Resistant)
A (Resistant)
50
92
198
Acetaldehyde
Stainless steels
Austenitic
317
0.003
0.1
70
104
220
Acetaldehyde
Stainless steels
Austenitic
317
0.018
0.7
70
118
245
Acetaldehyde
Stainless steels
Austenitic
317
0.003 max
0.1 max
97-98
66
150
Acetaldehyde Acetamide
Stainless steels Aluminum and alloys
Precipitation AM-363 hardening Aluminum-magnesium Al-1Mn-2Mg
A (Resistant) 0.0032
A (Resistant) 0.12
Pure
Room 22
Room 72
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Acetamide Acetamide Acetamide Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Aluminum and alloys Aluminum and alloys Aluminum and alloys Aluminum and alloys Aluminum and alloys Carbon and alloy steels Carbon and alloy steels Copper and alloys Copper and alloys Copper and alloys
Aluminum-magnesium Al-1Mn-2Mg Aluminum-magnesium Al-3Mg Aluminum-magnesium Al-3Mg 99.0% min Al Aluminummanganese Alloy steel Alloy steel Aluminum bronze Aluminum bronze Aluminum bronze Aluminum (>99.5%) Aluminummanganese alloys 16Ni, 8Cr, 5Si, 1Cu 16Ni, 8Cr, 5Si, 1Cu, 1Mo Aluminum bronze Ampco 8, aluminum bronze Ampco 8, aluminum bronze Brass Cartridge brass Commercial bronze Muntz metal Red brass C11000 C11000 C11000 C11000 C11000 C11000 C11000 C11000 0.0033 0.004 C (Questionable) C (Questionable) 0.03 0.03 B (Good) 0.05 max 0.5 max 0.13 0.16 C (Questionable) C (Questionable) 1 1 B (Good) 2 max 20 max
50% H2O 10% H2O 50% H2O A91350 0-100% solution 0-100% solution Glacial Glacial
22 22 22 0-118 0-118 80
72 72 72 32-244 32-244
C61300 Generally suitable, crude C61300 Generally suitable. Conditions such as aeration or temperature could restrict use. Vapors
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys
Brass Brass Brass Brass Brass Copper Copper Copper Copper Copper Copper Copper Copper
C (Questionable) D (Poor) B (Good) D (Poor) B (Good) 0.005 0.483 0.066-0.07 0.06 0.03 0.09 0.09 0.03 max
C (Questionable) D (Poor) B (Good) D (Poor) B (Good) 0.2 19 2.6-2.8 2.4 1.2 3.6 3.6 1.2 max
Acetic Acid
Copper and alloys
Copper
C11000
0.274
10.8
C26000 C22000 C28000 C23000 C11000 C11000 Plus an acetic anhydride acetone mixture C11000 Plus an acetic anhydride acetone mixture C11000 Annealed. Test specimens were exposed in cycle feed lines C11000 Annealed. Test specimens were exposed in cycle feed lines C11000 Cold worked. Test specimens were exposed in cycle feed lines C11000 Cold worked. Test specimens were exposed in cycle feed lines C11000 Test specimens were exposed in the acetic acid recovery column, where concentration of the acetic acid was 45% max C11000 Test specimens were exposed to crude byproduct acetic acid (approx. 25% concentration) in pump suction line from storage tank C11000 Test specimens were exposed to crude byproduct acetic acid (approx. 25% concentration) in pump suction line from storage tank C11000 C11000 C11000 C11000 C11000 C12200 With 5% acetic anhydride, liquid phase With 5% acetic anhydride, vapor phase With 50% acetic anhydride With an equal part acetic anhydride
Pure 110-140 110-140 30-50 30-50 30-50 30-50 230-285 230-285 86-122 86-122 86-122 86-122
90 90 90 90 45
25
Acetic Acid
Copper and alloys
Copper
C11000
0.152
6
25
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys
Copper Copper Copper Copper Copper Copper Copper Copper Copper Copper
C11000 C11000 C11000 C11000 Electrolytic copper Phosphor copper Copper Copper Copper Copper
0.097-0.116 0.102-0.104 0.084-0.090 0.12-0.533 B (Good) B (Good) 0.183 0.12 0.183 0.12
3.8-4.4 4.0-4.1 3.3-3.6 4.7-21.0 B (Good) B (Good) 7.2 4.8 7.2 4.8
95 95 50
120 120 150 130-145
250 250 300 265-295
Brazed with BCuP-5 filler metal. Test specimens were exposed in cycle feed lines Brazed with BCuP-5 filler metal. Test specimens were exposed in cycle feed lines Brazed BAg filler metal. Test specimens were exposed in cycle feed lines Brazed BAg filler metal. Test specimens were exposed in cycle feed lines
90 90 90 90
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Acetic Acid
Copper and alloys
Copper
Copper
0.03 max
1.2 max
Brazed BAg filler metal. Test specimens were exposed in the acetic acid recovery column, where concentration of the acetic acid was 45% max C71500 C70600 C38500 C36000
45
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys
Copper-nickel Copper-nickel Leaded brass Leaded brass Nickel-silver Phosphor bronze Phosphor bronze Silicon bronze Silicon bronze Silicon bronze
70-30 cupronickel 90-10 cupronickel Architectural bronze Free-cutting brass Nickel-silver Phosphor bronze, 5% Sn. Phosphor bronze, 8% Sn. C65500 C65500 C65500
B (Good) B (Good) D (Poor) D (Poor) B (Good) B (Good) B (Good) 0.213 0.07-0.09 0.03 max
B (Good) B (Good) D (Poor) D (Poor) B (Good) B (Good) B (Good) 8.4 2.7-3.6 1.2 max
18 C51000 C52100 C65500 Plus an acetic anhydride acetone mixture C65500 Plus an acetic anhydride acetone mixture C65500 Test specimens were exposed in the acetic acid recovery column, where concentration of the acetic acid was 45% max C65500 With an equal part acetic anhydride C65500 C65100 C44300 C46400 L50045 Glacial L50045 Glacial L50001 L50001 L50001 L50001 L50001 L50001 L50001 L50001 L50001 110-140 110-140 45 230-285 230-285
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Copper and alloys Copper and alloys Copper and alloys Copper and alloys Copper and alloys Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Miscellaneous Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys
Silicon bronze Silicon bronze Silicon bronze Tin brass Tin brass Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Lead and alloys Magnesium and alloys Noble metals Noble metals Noble metals Noble metals Tin and alloys Tin and alloys Tin and alloys Tin and alloys Tin and alloys Tin and alloys Tin and alloys Tin and alloys Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel Nickel
C65500 Silicon bronze, high Silicon bronze, low Admiralty brass Naval brass Lead Lead High purity lead High purity lead High purity lead High purity lead High purity lead High purity lead High purity lead High purity lead High purity lead Magnesium Gold Iridium Rhodium Silver Tin Tin Tin Tin Tin Tin Tin Tin Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200 Nickel 200
0.116-0.236 B (Good) B (Good) C (Questionable) D (Poor) 0.5 max 0.25 max 1.05 1.23 1.33 1.58 2.05 2.45 2.65 2.78 3.1 D (Poor) 0.05 max A (Resistant) A (Resistant) 0.05 max A (Resistant) D (Poor) D (Poor) D (Poor) D (Poor) D (Poor) 0.07 11 0.81 0.71 0.084 0.11 0.009 0.25 1 10 0.025 1.6 0.11 0.036 0.076 0.007
4.6-9.3 B (Good) B (Good) C (Questionable) D (Poor) 20 max 10 max 42 49 53 63 82 98 106 111 124 D (Poor) 2 max A (Resistant) A (Resistant) 2 max A (Resistant) D (Poor) D (Poor) D (Poor) D (Poor) D (Poor) 3 450 32 28 3.3 4.3 0.36 10 40 400 1 63 4.5 1.4 3 0.28
130-145
265-295
0.1 1 2 3 4 5 6 7 10 All
24 Room 20 20 20 20 20 20 20 20 20
75 Room 68 68 68 68 68 68 68 68 68
P00016 Glacial Glacial P05990 Glacial P07010
All 10 10 10
N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200 N02200
Glacial Glacial Glacial Hydrogen Oxygen 3200 ppm Cu2+ added as acetate 3200 ppm Cu2+ added as acetate Aerated Aerated Aerated Air saturated Air saturated Air saturated Air sparge Air sparge Mill annealed. Based on four 24-h tests No air No air Unaerated
100 100 100 Boiling 20 60 100 20 60 100
212 212 212 Boiling 68 140 212 68 140 212
6 6 100 50 30 50 99.9 0.1 5 85 100 50 99 100 50 5
Boiling Boiling 30 30 116 Room Room Room Boiling Boiling Boiling Boiling Boiling 116
Boiling Boiling 86 86 240 Room Room Room Boiling Boiling Boiling Boiling Boiling 240
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Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys
Nickel Nickel Nickel Nickel-chromium-iron
Nickel 200 Nickel 200 Nickel 200 Incoloy alloy 800 Inco Alloys International Inc.
0.0025 0.006 0.003 0.003 max
0.1 0.25 0.13 0.1 max
No pitting
N02200 N02200 N02200 N08800
Acetic Acid
Nickel and alloys
Nickel-chromium-iron Incoloy alloy 800 Inco 0.003 max Alloys International Inc. Nickel-chromium-iron Incoloy alloy 800 Inco Alloys International Inc. Nickel-chromium-iron Inconel alloy 601 Inco Alloys International Inc. Nickel-chromium-iron Inconel alloy 601 Inco Alloys International Inc. Nickel-chromium-iron Inconel alloy 601 Inco Alloys International Inc. Nickel-chromium-iron Nickel 600 Nickel-chromium-iron Nickel 600 Nickel-chromium-iron Nickel 600 Nickel-chromium-iron Sanicro 28 Nickel-chromium-iron Sanicro 28 Nickel-chromium-iron Sanicro 28 Nickel-chromium-iron- Alloy 825 molybdenum Nickel-chromium-iron- Alloy 825 molybdenum Nickel-chromium-iron- Alloy 825 molybdenum Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Carpenter Pyromet molybdenum Alloy 102 Carpenter Technologies Corp. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. 0.003 max
0.1 max
Incipient pits after 42 d
Acetic Acid
Nickel and alloys
0.1 max
No pitting
Acetic Acid
Nickel and alloys
0.002 max
0.1 max
Unaerated Unaerated Unaerated Plus 0.5% H2SO4. Solutions were prepared with reagent-grade chemical. Test specimens were cold-rolled, annealed sheet, 2.84 mm (0.112 in.) thick N08800 Plus 0.5% NaCl. Solutions were prepared with reagent-grade chemical. Test specimens were cold-rolled, annealed sheet, 2.84 mm (0.112 in.) thick N08800 Solutions were prepared with reagent-grade chemicals. Test specimens were cold-rolled, annealed sheet, 2.84 mm (0.112 in.) thick N06601
10 50 99.9 10
30 30 30 80
86 86 86 176
10
80
176
10
80
176
10
80
176
Acetic Acid
Nickel and alloys
1.161
45.7
N06601 Plus 0.5% H2SO4. Average of two tests
10
80
176
Acetic Acid
Nickel and alloys
0.554
21.8
N06601 Plus 0.5% NaCl. Average of two tests
10
80
176
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys
0.0013 0.002 0.0005 0.001 0.17 0.001 0.004 0.2 0.002 0.076
0.05 0.08 0.02 0.04 6.7 0.04 0.16 7.9 0.08 3.04
N06600 N06600 N06600 N08028 N08028 N08028 N08825 N08825
Unaerated Unaerated Unaerated
Plus 5% formic acid
2 5 10 90 75 85 90 75 85
30 116 30 150 150 150 150 150 150
86 240 86 302 302 302 302 302 302
N08825 Plus 5% formic acid Annealed. Glacial
Acetic Acid
Nickel and alloys
0.025
1
Stress relieved at 843 C (1550 F) for 1/2 h, furnace cooled. Glacial Annealed. Plus 2% formic acid 10
Acetic Acid
Nickel and alloys
0.152
6.08
Acetic Acid
Nickel and alloys
0.102
4.08
Stress relieved at 843 C (1550 F) for 1/2 h, furnace cooled. Plus 2% formic acid Annealed. Plus acetic anhydride (1:1)
10
Acetic Acid
Nickel and alloys
0.686
27.44
Acetic Acid
Nickel and alloys
0.711
28.44
Stress relieved at 843 C (1550 F) for 1/2 h, furnace cooled. Plus acetic anhydride (1:1) N08825 1% formic acid, 5% high boiling esters 94 127 260
Acetic Acid
Nickel and alloys
0.018
0.7
Acetic Acid
Nickel and alloys
0.038
1.5
N08825 1.5 to 3.0% formic acid, 0.5% potassium permanganate, balance water N08825 1.5% formic acid, 1 to 1.5% water
95
110-143
230-290
Acetic Acid
Nickel and alloys
0.152
6
96.5-98
124
255
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Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Acetic Acid
Nickel and alloys
Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Incoloy alloy 825 Inco molybdenum Alloys International Inc. Nickel-chromium-iron- Nickel 825 molybdenum Nickel-chromium-iron- Nickel G molybdenum Nickel-chromium-iron- Nickel G molybdenum Nickel-chromium-iron- Nickel G-2 molybdenum Nickel-chromium-iron- Nickel G-3 molybdenum Nickel-chromiumAlloy 625 molybdenum(tungsten) Nickel-chromiumCabot alloy No. 625 molybdenumCabot Corp. (tungsten) Nickel-chromiumCabot alloy No. 625 molybdenumCabot Corp. (tungsten) Nickel-chromiumInconel alloy 690 Inco molybdenumAlloys International (tungsten) Inc. Nickel-chromiumInconel alloy 690 Inco molybdenumAlloys International (tungsten) Inc. Nickel-chromiumNickel 625 molybdenum(tungsten) Nickel-chromiumNickel 625 molybdenum(tungsten) Nickel-chromiumNickel 625 molybdenum(tungsten) Nickel-chromiumNickel alloy C molybdenum(tungsten) Nickel-chromiumNickel alloy C molybdenum(tungsten) Nickel-chromiumNickel alloy C molybdenum(tungsten) Nickel-chromiumNickel C-276 molybdenum(tungsten) Nickel-chromiumNickel C-276 molybdenum(tungsten)
0.079
3.1
N08825 2.5% formic acid, 6.0% water
91.5
110-127
230-260
0.051
2
0.005
0.2
N08825 6% propionic acid, 20% butane, 5% pentane,8% 40 ethyl acetate, 5% methyl ethyl ketone, plus other esters and ketones N08825 Less than 0.1% water in still 99.9
174
345
107
225
0.008
0.3
0.0152-0.016 0.03 0.011-0.014 0.005 0.015 0.03
0.60-0.63 1.2 0.43-0.54 0.2 0.6 1
N08825 Vapors of 85% acetic acid, 10% acetic anhydride, 5% water, plus some acetone, acetonitrile, in vapor line just before condenser N08825 Mill annealed. Based on four 24-h tests N06007 Mill annealed. Based on four 24-h tests N06007 Mill annealed. Based on four 24-h tests N06975 Mill annealed. Based on four 24-h tests N06985 Mill annealed. Based on four 24-h tests N06625
85
116-135
240-275
10 99 10 99 99 20
Boiling Boiling Boiling Boiling Boiling Boiling
Boiling Boiling Boiling Boiling Boiling Boiling
0.02 max
0.6 max
N06625 Average of four 24-h periods
10
Boiling
Boiling
0.01
0.4
N06625 Average of four 24-h periods
99
Boiling
Boiling
0.03 max
1 max
N06690
10
80
176
0.03 max
1 max
N06690 Plus 0.5% H2SO4
10
80
176
0.01-0.019
N06625 Mill annealed. Based on four 24-h tests
10
Boiling
Boiling
0.39
0.77
N06625 Mill annealed. Based on four 24-h tests
99
Boiling
Boiling
0.01
0.4
N06625 Mill annealed. Based on four 24-h tests
99
Boiling
Boiling
0.049
1.93
N10002
90
150
302
0.076
3
N10002
75
150
302
0.073
2.88
N10002 Plus 5% formic acid
85
150
302
0.0076
0.3
N10276 Mill annealed. Based on four 24-h tests
99
Boiling
Boiling
0.011-0.0114
0.41-0.45
N10276 Mill annealed. Based on four 24-h tests
10
Boiling
Boiling
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Acetic Acid
Nickel and alloys
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys Nickel and alloys
Nickel-chromiummolybdenum(tungsten) Nickel-chromiummolybdenum-cobalt Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-copper Nickel-molybdenum
Nickel C-4
0.0005
0.02
N06455 Mill annealed. Based on four 24-h tests
99
Boiling
Boiling
MP35N Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Nickel 400 Hastelloy alloy B-2 Haynes International
0.015 2.97 0.9 0.008 0.01 0.019 0.009 0.006 0.004 0.05 2.1 0.015 0.0025 0.025 0.0008 0.0025 0.0008 0.002 0.002 0.0013 0.002 0.02 max
0.6 117 36 0.33 0.41 0.74 0.36 0.23 0.15 2 84 0.6 0.1 1 0.03 0.1 0.03 0.08 0.08 0.05 0.08 0.5 max
R30035 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N04400 N10665 3200 ppm Cu2+ added as acetate 3200 ppm Cu2+ added as acetate Aerated Aerated Aerated Aerated Aerated Aerated Air sparge Air sparge Mill annealed. Based on four 24-h tests No air No air Unaerated Unaerated Unaerated Unaerated Unaerated Unaerated Unaerated Determined in lab tests. It is recommended that samples be tested under actual plant conditions. All test specimens were heat-treated at 1066 C (1950 F), water quenched Determined in lab tests. It is recommended that samples be tested under actual plant conditions. All test specimens were heat-treated at 1066 C (1950 F), water quenched Determined in lab tests. It is recommended that samples be tested under actual plant conditions. All test specimens were heat-treated at 1066 C (1950 F), water quenched Determined in lab tests. It is recommended that samples be tested under actual plant conditions. All test specimens were heat-treated at 1066 C (1950 F), water quenched Glacial. Determined in lab tests. It is recommended that samples be tested under actual plant conditions. All test specimens were heat-treated at 1066 C (1950 F), water quenched
99 100 50 10 25 50 75 99.9 99.9 100 50 99 100 50 2 50 5 10 25 75 99.9 10
Boiling Boiling Boiling 30 30 30 30 30 116 Boiling Boiling Boiling Boiling Boiling 30 30 116 30 30 30 30 Boiling
Boiling Boiling Boiling 86 86 86 86 86 240 Boiling Boiling Boiling Boiling Boiling 86 86 240 86 86 86 86 Boiling
Acetic Acid
Nickel and alloys
Nickel-molybdenum
Hastelloy alloy B-2 Haynes International
0.01
0.4
N10665
30
Boiling
Boiling
Acetic Acid
Nickel and alloys
Nickel-molybdenum
Hastelloy alloy B-2 Haynes International
0.01
0.4
N10665
50
Boiling
Boiling
Acetic Acid
Nickel and alloys
Nickel-molybdenum
Hastelloy alloy B-2 Haynes International
0.01 max
0.3 max
N10665
70
Boiling
Boiling
Acetic Acid
Nickel and alloys
Nickel-molybdenum
Hastelloy alloy B-2 Haynes International
0.01 max
0.3 max
N10665
99
Boiling
Boiling
Acetic Acid Acetic Acid Acetic Acid
Nickel and alloys Nickel-molybdenum Nickel and alloys Nickel-molybdenum Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys
Nickel B-2 Nickel B-2 44Co-31Cr-13W
0.03 0.0112-0.013 A (Resistant)
1.2 0.44-0.50 A (Resistant)
Acetic Acid
44Co-31Cr-13W
0.002
0.1
Acetic Acid
44Co-31Cr-13W
0.1
4
Acetic Acid
Refractory metals and Cobalt and alloys alloys
44Co-31Cr-13W
0.007
0.3
N10665 Mill annealed. Based on four 24-h tests N10665 Mill annealed. Based on four 24-h tests Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods . Heat treated 4 h at 899 C (1650 F), furnace cooled; cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Heat treated 4 h at 899 C (1650 F), furnace cooled; cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish
99 10 99
Boiling Boiling Boiling
Boiling Boiling Boiling
10
Boiling
Boiling
10
Boiling
Boiling
99
Boiling
Boiling
Page 6
A-B
Acetic Acid Acetic Acid Acetic Acid
Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys Refractory metals and Cobalt and alloys alloys
50Co-20Cr-15W-10Ni 0.002 50Co-20Cr-15W-10Ni A (Resistant) 50Co-20Cr-15W-10Ni 0.002
0.1 A (Resistant) 0.1 Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Heat treated 4 h at 899 C (1650 F), furnace cooled; cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Heat treated 4 h at 899 C (1650 F), furnace cooled; cast specimen 38 mm x 25 mm x 6 mm (1.5 in. x 1 in. x 0.25 in.), 120-grit abrasive finish. Average of five 24-h periods Static R30004 R30188 R30021 R30605 R30556
10 99 10
Boiling Boiling Boiling
Boiling Boiling Boiling
Acetic Acid
50Co-20Cr-15W-10Ni A (Resistant)
A (Resistant)
99
Boiling
Boiling
Acetic Acid
53Co-30Cr-4.5W
0.007
0.3
10
Boiling
Boiling
Acetic Acid
53Co-30Cr-4.5W
0.007
0.3
99
Boiling
Boiling
Acetic Acid
53Co-30Cr-4.5W
0.007
0.3
10
Boiling
Boiling
Acetic Acid
Refractory metals and Cobalt and alloys alloys
53Co-30Cr-4.5W
0.01
0.4
99
Boiling
Boiling
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys
Cobalt and alloys Cobalt and alloys Cobalt and alloys Cobalt and alloys Cobalt and alloys Cobalt and alloys Cobalt and alloys Cobalt and alloys
Cobalt Havar Haynes alloy 188 Haynes International Haynes alloy 21 Haynes International Haynes alloy 25 Haynes International Haynes alloy 556 Haynes International Haynes alloy 6B Haynes International Haynes alloy No. 25 Haynes International
0.05 0.078 0.005 0.017 0.0056 0.005 0.0008 A (Resistant)
2 3.1 0.2 0.67 0.22 0.2 0.03 A (Resistant)
5 99 99 99 99 99 99
25 Boiling Boiling Boiling Boiling Boiling Boiling Room
77 Boiling Boiling Boiling Boiling Boiling Boiling Room
R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet
10
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
50
Room
Room
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
99
Room
Room
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
10
66
150
Page 7
A-B
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30605 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet
50
66
150
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
99
66
150
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
0.01 max
0.1 max
10
Boiling
Boiling
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
0.01 max
0.1 max
50
Boiling
Boiling
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Haynes alloy No. 25 Haynes International
A (Resistant)
A (Resistant)
99
Boiling
Boiling
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
10
Room
Room
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
50
Room
Room
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
99
Room
Room
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
10
66
150
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
50
66
150
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
A (Resistant)
A (Resistant)
99
66
150
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
0.01 max
0.1 max
10
Boiling
Boiling
Page 8
A-B
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
0.01 max
0.1 max
R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R30155 All data are steady-state as calculated from a minimum of five 24-h test periods. All data were obtained using corrosion specimens prepared from 12-gage, solution heat-treated sheet R04210 R05210
50
Boiling
Boiling
Acetic Acid
Refractory metals and Cobalt and alloys alloys
Multimet
0.01 max
0.1 max
99
Boiling
Boiling
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys
Niobium and alloys Tantalum and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanium and alloys Titanuim and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys
Niobium Tantalum Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium Titanium, Grade 12 Titanium, grade 9 Ti-3Al-2.5V, grade 9 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702
A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.003 0.003 0.381 0.003 A (Resistant) 0.005 0.272 0.259 1.02 0.457 A (Resistant) A (Resistant) A (Resistant) 0.025 max 0.025 max 0.13 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max
A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.12 0.12 15.24 0.12 A (Resistant) 0.2 10.88 10.36 40.8 18.28 A (Resistant) A (Resistant) A (Resistant) 1 max 1 max 5 max 1 max 1 max 1 max 1 max 1 max 1 max
5-99.7
Boiling 100
Boiling 212 255 Boiling Boiling 250 266 255 Boiling 399 Boiling Boiling 399 Boiling Boiling Boiling Boiling 95-Boiling 320 Boiling 390 390 212 300 300 212
5-99.7 33-vapor 99 65 58 99.7 100 Plus 1.5% (CH3CO)2O Plus 106 ppm Cl Plus 109 ppm Cl Plus 3% (CH3CO)2O Plus 5% HCOOH R53400 Plus 5% formic acid Glacial 62 31.2 Glacial 58 58 99.7 100 R60702 R60702 R60702 Glacial R60702 Plus 1% I- + 100 ppm Fe3+ R60702 Plus 10% CH3OH R60702 Plus 2% HI R60702 Plus 2% HI R60702 Plus 2% HI + 1% CH3OH + 500 ppm (HCOOH) R60702 Plus 2% HI + 1000 ppm Fe added as powder 5-99.5 100 99.7 99 90 80 98 80 80
124 Boiling Boiling 121 130 124 Boiling 204 Boiling Boiling 204 Boiling Boiling Boiling Boiling 3595-Boiling 160 Boiling 200 200 100 150 150 100
Page 9
A-B
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Refractory metals and alloys Stainless steels
Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Zirconium and alloys Titanium and alloys Austenitic
Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr702 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Zr705 Titanium, unalloyed 20
0.025 max 0.025 max 0.025 max 0.025 max
1 max 1 max 1 max 1 max
R60702 Plus 2% HI + 200 ppm ClR60702 Plus 2% HI + 200 ppm Fe3+
80 80
100 100 150 150 300 160 200 Boiling Boiling 40 3595-Boiling 200 100 150 150 100 100 100 150 150 150 Boiling Boiling 100 106
212 212 300 300 150 320 390 Boiling Boiling 100 95-Boiling 390 212 300 300 212 212 212 300 300 300 Boiling Boiling 212 223
1 mA (Resistant)x 0.025 1 mA (Resistant)x 0.025 max 1 max 0.025 max 0.025 max 5 min 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 0.025 max 5 min 0.005 max 0.102 1 max 1 max 200 min 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 1 max 200 min 0.2 max 4
R60702 Plus 2% HI, 1% CH3OH, 500 ppm (HCOOH),100 80 ppm Cu R60702 Plus 2% HI, 1% CH3OH, 500 ppm (HCOOH),100 80 ppm Fe R60702 Plus 2% I98 R60702 Plus 50 ppm IR60702 Plus 50 ppm IR60702 Plus 50% (CH3.CO)2O R60702 Plus saturated gaseous HCl and Cl2 R60702 Plus saturated gaseous HCl and Cl2 R60705 R60705 Plus 1% I- + 100 ppm Fe3+ R60705 Plus 2% HI R60705 Plus 2% HI R60705 Plus 2% HI + 1% CH3OH + 500 ppm (HCOOH) R60705 Plus 2% HI + 200 ppm ClR60705 Plus 2% HI + 200 ppm ClR60705 Plus 2% HI + 200 ppm Fe3+ R60705 Plus 2% HI, 1% CH3 OH, 500 ppm (HCOOH), 100 ppm Cu R60705 Plus 2% HI, 1% CH3 OH, 500 ppm (HCOOH), 100 ppm Fe R60705 Plus 2% IR60705 Plus 50% (CH3.CO)2O R60705 Plus saturated gaseous HCl and Cl2 100 100 50 100 100 5-99.5 99 80 98 80 80 80 80 80 80 98 50 100 0-99.5 J95150 Data were obtained during processing of acetic 10 acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic 24 acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm
Acetic Acid
Stainless steels
Austenitic
20
0.102
4
J95150
110
230
Page 10
A-B
Acetic Acid
Stainless steels
Austenitic
20
0.127
5
J95150
Acetic Acid
Stainless steels
Austenitic
20
0.203
8
J95150
Acetic Acid
Stainless steels
Austenitic
20
0.05
2
J95150
Acetic Acid
Stainless steels
Austenitic
20
0.013
0.5
J95150
Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm
83
116
241
87
122
252
98
128
262
99.5
130
266
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
301 301 301 301 301 301 301 301 301 301 301 302 302 302 302 302 302 302 302 302 302 302 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303
A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) C (Questionable) A (Resistant) B (Good) A (Resistant) C (Questionable) B (Good) A (Resistant) A (Resistant) C (Questionable) B (Good) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) C (Questionable) A (Resistant) B (Good) A (Resistant) C (Questionable) B (Good) A (Resistant) A (Resistant) C (Questionable) B (Good) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
S30100 S30100 S30100 S30100 S30100 S30100 S30100 S30100 S30100 S30100 S30100 S30200 S30200 S30200 S30200 S30200 S30200 S30200 S30200 S30200 S30200 S30200 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300 S30300
10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 10 10 10 50 50 50 50 100 100 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10
20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 20 20 Boiling Boiling 20 20 Boiling Boiling 20 20 Boiling Boiling 20 20 Boiling Boiling 20 20 50 50
68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 68 68 Boiling Boiling 68 68 Boiling Boiling 68 68 Boiling Boiling 68 68 Boiling Boiling 68 68 122 122
Page 11
A-B
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
303 303 304 304 304 304 304 304 304 304 304 304 304 304 304 304 304 304 304 304 304
B (Good) A (Resistant) 0.76 0.081 A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) 7.5 A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 1.68
B (Good) A (Resistant) 30 3.2 A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) 300 A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 66
S30300 S30300 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 20 Concentrated 10 60 60 100 100 20 10 10 50 50 100 100
90 90 Boiling Boiling Boiling 15 Boiling 21 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 21 21 116
194 194 Boiling Boiling Boiling 60 Boiling 70 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 70 70 241
Acetic Acid
Stainless steels
Austenitic
304
1.07
42
S30400
Acetic Acid
Stainless steels
Austenitic
304
0.18
7
S30400
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
304 304 304 304 304 304 304 304 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316
0.75 D (Poor) 6.86 A (Resistant) A (Resistant) A (Resistant) 0.275 0.0025 0.0076 0.013 A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) 0.05 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
30 D (Poor) 270 A (Resistant) A (Resistant) A (Resistant) 11 0.1 0.3 0.5 A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) 2 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
S30400 S30400 S30400 S30400 S30400 S30400 S30400 S30400 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 S31600 Aerated S31600 Aerated
Aerated Aerated Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm No activation No activation Plus 2-10% HCOOH Plus 220 ppm ClPlus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Test conducted in three 48 h periods
5 10 83
87
122
252
98
128
262
20 80 30-50 Concentrated 10 10 10 50 wt% 10 20 Concentrated 10 60 60 100 100 10 10 50 50 100 100
Boiling Boiling 106 Boiling 20 50 90 Boiling Boiling Boiling Boiling Boiling 15 Boiling 21 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 21 21
Boiling Boiling 223 Boiling 68 122 194 Boiling Boiling Boiling Boiling Boiling 60 Boiling 70 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 70 70
5 10
Page 12
A-B
Acetic Acid
Stainless steels
Austenitic
316
0.05
2
Acetic Acid
Stainless steels
Austenitic
316
0.069
2.7
Acetic Acid
Stainless steels
Austenitic
316
0.023
9
Acetic Acid
Stainless steels
Austenitic
316
0.406
16
Acetic Acid
Stainless steels
Austenitic
316
0.05
2
Acetic Acid
Stainless steels
Austenitic
316
0.0076
0.3
Acetic Acid
Stainless steels
Austenitic
316
0.102
4
Intergranular
Acetic Acid
Stainless steels
Austenitic
316
0.56
22
Intergranular
Acetic Acid
Stainless steels
Austenitic
316
0.102
4
Intergranular
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
316 316 316 316 316 316 316 316 316 316 316 317
0.04 max 0.08 0.0075 0.04 .08-0.5 4.57 0.08 A (Resistant) A (Resistant) A (Resistant) 0.0076
1.5 max 3.3 0.3 1.5 20-Mar 180 3 A (Resistant) A (Resistant) A (Resistant) 0.3
S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Sensitized at 650 C (1200 F). Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Sensitized at 650 C (1200 F). Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Sensitized at 650 C (1200 F). Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31600 Glacial S31600 Glacial. Plus 4% HCOOH S31600 No activation S31600 No activation S31600 Plus 1.25% HCOOH S31600 Plus 2-10% HCOOH S31600 Plus 220 ppm ClS31600 Plus 4% HCOOH S31600 Plus 50% hydrogen peroxide S31600 Plus 50% hydrogen peroxide S31600 Plus 50% hydrogen peroxide S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm
10
106
223
24
110
230
83
116
241
87
122
252
98
128
262
99.5
130
266
10
106
223
83
116
241
98
128
262
20 80 25 30-50 Concentrated 25 10 10 10 10
93-110 93-110 Boiling Boiling 104 106 Boiling 104 20 50 90 106
200-230 200-230 Boiling Boiling 220 223 Boiling 220 68 122 194 223
Page 13
A-B
Acetic Acid
Stainless steels
Austenitic
317
0.069
2.7
Acetic Acid
Stainless steels
Austenitic
317
0.102
4
Acetic Acid
Stainless steels
Austenitic
317
0.025
1
Acetic Acid
Stainless steels
Austenitic
317
0.025
1
Acetic Acid
Stainless steels
Austenitic
317
0.01
0.4
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
317 317 317 321 321 321 321 321 321 321 321 321 321 321 321 347 347 347 347 347 347 347 347 347 347 347 347 347 18Cr-2Ni-12Mn 20Cb-3 20Cb-3 20Cb-3 304L 304L 304L 304L 304L
0.03 max .05-0.3 0.05 A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) D (Poor) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) D (Poor) D (Poor) A (Resistant) A (Resistant) A (Resistant) 0.005 0.19 0.75 0.04 4.9 A (Resistant) A (Resistant) A (Resistant) B (Good)
1 max 11-Feb 2 A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) D (Poor) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) D (Poor) D (Poor) A (Resistant) A (Resistant) A (Resistant) 0.2 7.5 30 1.58 193 A (Resistant) A (Resistant) A (Resistant) B (Good)
S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31700 Data were obtained during processing of acetic acid containing ionized halogens; concentration of halide ions varied during period of observation; estimated range of concentration, 5 to 10 ppm S31700 Plus 1.25% HCOOH S31700 Plus 2-10% HCOOH S31700 Plus 4% HCOOH S32100 S32100 S32100 S32100 S32100 S32100 S32100 S32100 S32100 Plus 4% HCOOH S32100 Plus 50% hydrogen peroxide S32100 Plus 50% hydrogen peroxide S32100 Plus 50% hydrogen peroxide S34700 S34700 S34700 S34700 S34700 S34700 S34700 S34700 S34700 Plus 2-10% HCOOH S34700 Plus 4% HCOOH S34700 Plus 50% hydrogen peroxide S34700 Plus 50% hydrogen peroxide S34700 Plus 50% hydrogen peroxide S24100 Test conducted in three 48 h periods N08020 N08020 Plus 15% formic acid N08020 Plus 5% formic acid S30403 S30403 S30403 S30403 S30403
24
110
230
83
116
241
87
122
252
98
128
262
99.5
130
266
25 30-50 25 10 10 50 50 100 100
25 10 10 10 10 10 50 50 100 100
30-50 25 10 10 10 50 90 75 85 90 10 10 50 50
104 106 104 20 Boiling 20 Boiling 20 Boiling 20 Boiling 104 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 106 104 20 50 90 Boiling 150 150 150 150 20 Boiling 20 Boiling
220 223 220 68 Boiling 68 Boiling 68 Boiling 68 Boiling 220 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 223 220 68 122 194 Boiling 302 302 302 302 68 Boiling 68 Boiling
Page 14
A-B
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic
304L 304L 304L 304L 304L 304L 304L 304L 304L 304LN 304LN 304LN 304LN 304LN 304LN 304LN 304LN 304LN 304LN 304LN 316F 316F 316F 316F 316F 316F 316F 316F 316F 316F 316F 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316L 316LN 316LN 316LN 316LN 316LN 316LN 316LN 316LN 316LN 316LN 316LN 316Ti 316Ti 316Ti 316Ti
A (Resistant) B (Good) A (Resistant) A (Resistant) 24.2 8.2 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.004 0.01 max A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) 0.015-0.018 0.37 0.005 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
A (Resistant) B (Good) A (Resistant) A (Resistant) 953 323 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.16 0.1 max A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) 0.58-0.72 14.6 0.2 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
S30403 S30403 S30403 S30403 S30403 S30403 S30403 S30403 S30403 S30453 S30453 S30453 S30453 S30453 S30453 S30453 S30453 S30453 S30453 S30453 S31620 S31620 S31620 S31620 S31620 S31620 S31620 S31620 S31620 S31620 S31620 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31603 S31653 S31653 S31653 S31653 S31653 S31653 S31653 S31653 S31653 S31653 S31653 S31635 S31635 S31635 S31635
100 100
Plus 15% formic acid Plus 5% formic acid Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
75 85 10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 90 20 10 10 50 50 100 100
Mill annealed. Based on four 24-h tests Plus 15% formic acid Plus 5% formic acid Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 75 85 10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 10 50 50
20 Boiling 20 Boiling 150 150 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 150 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling Boiling 150 150 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 20 Boiling 20 Boiling
68 Boiling 68 Boiling 302 302 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 302 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling Boiling 302 302 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 68 Boiling 68 Boiling
Page 15
A-B
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Austenitic Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex Duplex
316Ti 316Ti 316Ti 316Ti 316Ti 316Ti 316Ti 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317L 317LN 317LN 317LN 317LN 317LN 317LN 317LN 317LN 317LN 317LN 317LN Alloy 904L Alloy 904L Alloy 904L Jessop JS700 Jessop Steel Co. Jessop JS700 Jessop Steel Co. 20Cb-3 329 329 329 329 329 329 329 329 329 329 329 AL 2205 AL 2205 F51 F51 F51 F51 F51 F51 F51
A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.051 max 0.001 0.005 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) 0.28 0.002 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.001 0.16 0.002 0.051 max 0.025 0.05 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.003 0.003 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant)
A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) max 0.04 0.2 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) 11 0.08 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.04 6.3 0.08 2 max 1 2 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.1 0.1 A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant)
S31635 S31635 S31635 S31635 S31635 S31635 S31635 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31703 S31725 S31725 S31725 S31725 S31725 S31725 S31725 S31725 S31725 S31725 S31725 N08904 N08904 N08904 N08700
100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 60 90 10 10 10 50 50 100 100
Plus 15% formic acid Plus 5% formic acid Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
75 85 10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
Plus 5% formic acid
10 10 10 90 75 85 60
20 Boiling 20 Boiling 20 50 90 Boiling 150 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 150 150 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 150 150 150 Boiling Boiling
68 Boiling 68 Boiling 68 122 194 Boiling 302 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 302 302 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 302 302 302 Boiling Boiling
N08700 Anhydride (1:1) N08020 S32900 S32900 S32900 S32900 S32900 S32900 S32900 S32900 S32900 Plus 50% hydrogen peroxide S32900 Plus 50% hydrogen peroxide S32900 Plus 50% hydrogen peroxide S31803 S31803 S31803 S31803 S31803 S31803 S31803 S31803 S31803
10 10 50 50 100 100
10 10 10
20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 Boiling 20 Boiling 20 Boiling 20 Boiling 20
68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 Boiling 68 Boiling 68 Boiling 68 Boiling 68
10 10 50 50 100 100
Page 16
A-B
Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Duplex Duplex Duplex Duplex Duplex Duplex Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic
F51 F51 F51 F51 Ferralium Ferralium 255 405 405 405 405 405 405 405 405 405 405 405 405 405 409 409 409 409 409 409 409 409 409 409 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 430 434 434 434 434 434 434 434 434 434 434 434
A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.01 0.005 D (Poor) C (Questionable) C (Questionable) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) B (Good) C (Questionable) C (Questionable) C (Questionable) C (Questionable) A (Resistant) C (Questionable) B (Good) C (Questionable) A (Resistant) C (Questionable) B (Good) C (Questionable) A (Resistant) C (Questionable) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) C (Questionable) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
A (Resistant) A (Resistant) A (Resistant) A (Resistant) 0.4 0.2 D (Poor) C (Questionable) C (Questionable) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) B (Good) C (Questionable) C (Questionable) C (Questionable) C (Questionable) A (Resistant) C (Questionable) B (Good) C (Questionable) A (Resistant) C (Questionable) B (Good) C (Questionable) A (Resistant) C (Questionable) A (Resistant) B (Good) A (Resistant) B (Good) A (Resistant) A (Resistant) B (Good) A (Resistant) A (Resistant) A (Resistant) B (Good) A (Resistant) C (Questionable) A (Resistant) A (Resistant) A (Resistant) A (Resistant) A (Resistant)
S31803 S31803 S31803 S31803 S32550 S32550 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40500 S40900 S40900 S40900 S40900 S40900 S40900 S40900 S40900 S40900 S40900 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43000 S43400 S43400 S43400 S43400 S43400 S43400 S43400 S43400 S43400 S43400 S43400
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 50 10 50 10 50 50 100 100
Boiling 20 50 90 Boiling Boiling Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 Boiling 15 Boiling 21 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 Boiling 21 21 20 50 90 20 Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90
Boiling 68 122 194 Boiling Boiling Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 Boiling 60 Boiling 70 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 Boiling 70 70 68 122 194 68 Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 60 60 100 100 10 10 50 50 10 10 50 50 100 100
Aerated Aerated Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
5 10 10 10 10 10 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10
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Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels
Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Ferritic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic Martensitic
439 444 444 444 18Cr-2Mo 18Cr-2Mo 26Cr-1Mo 26Cr-1Mo 26Cr-1Mo 29Cr-4Mo AL 29-4-2 AL 29-4C E-Brite 403 403 403 403 403 403 403 403 403 403 403 403 403 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 410 416 416 416 416 416 416 416 416 416 416 420 420 420 420
0.09 0.01 0.005 0.005 0.005 0.005 0 0.013 0.5 0 0.01 max 0.01 max 0.01 max C (Questionable) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) D (Poor) A (Resistant) D (Poor) D (Poor) D (Poor) D (Poor) D (Poor) A (Resistant) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) D (Poor) B (Good) C (Questionable) D (Poor) D (Poor) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good)
3.6 0.2 0.2 0.2 0.2 0.2 0 0.5 20 0 0.1 max 0.1 max 0.1 max C (Questionable) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) D (Poor) A (Resistant) D (Poor) D (Poor) D (Poor) D (Poor) D (Poor) A (Resistant) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) D (Poor) B (Good) C (Questionable) D (Poor) D (Poor) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good) D (Poor) A (Resistant) C (Questionable) B (Good) C (Questionable) D (Poor) C (Questionable) C (Questionable) D (Poor) B (Good)
S43035 S44400 S44400 S44400 S18200 S18200 S44627 S44627 S44627 S44700 S44800 S44735 S44627 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S40300 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41000 S41600 S41600 S41600 S41600 S41600 S41600 S41600 S41600 S41600 S41600 S42000 S42000 S42000 S42000
No activation No activation
Plus 220 ppm Cl-
20 20 20 80 20 80 20 Concentrated Concentrated 20 20 20 20 10 50 50 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 33 10 10 60 60 100 100 100 10 50 50 100 100
Aerated Aerated Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Vapor Vapor
5 10 10 10 10 100 33 10 50 50 100 100
Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide Plus 50% hydrogen peroxide
10 10 10 10 50 50 100
Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling 20 Boiling Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 Room Room Boiling 15 Boiling 21 Boiling Room Boiling 20 Boiling 20 Boiling 20 Boiling 21 21 20 50 90 Room Room Boiling 20 Boiling 20 Boiling 20 Boiling 20 50 90 Boiling 20 Boiling 20
Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling Boiling 68 Boiling Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 Room Room Boiling 60 Boiling 70 Boiling Room Boiling 68 Boiling 68 Boiling 68 Boiling 70 70 68 122 194 Room Room Boiling 68 Boiling 68 Boiling 68 Boiling 68 122 194 Boiling 68 Boiling 68
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Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Acid Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride Acetic Anhydride
Stainless steels Stainless steels Stainless steels Stainless steels Stainless steels Stain