.Professor Huseyin Sehitoglu 2.John,Alice and Sarah Endowed … · Department of Mechanical Science...

1.Professor Huseyin Sehitoglu 2.John,Alice and Sarah Endowed Chair 3. Department of Mechanical Science and Engineering, UIUC 4.College of Engineering, UIUC

5. Degrees (field, institution, year awarded)

1. B.S.c., ME, The City, University ofLondon (First Class Honors),1979 2. M.S., TAM, University of Illinois at U-C, 1981 3. Ph.D., TAM, University of Illinois at U-C, 1983

6. Academic Positions at U of I and elsewhere (rank, institution, field, inclusive dates) (show % if you hold multiple appointments)

1. Assistant Professor, Department of Mechanical and Industrial Engineering, UIUC, 1983-87 2. Associate Professor, Department of Mechanical and Industrial Engineering, UIUC, 1987-92 3. Director, Mechanics and Materials, National Science Foundation, Washington, DC, 1991-93 4. Visiting Professor, The Johns Hopkins University, Baltimore, MD, 1993-94 5. Professor, Department of Mechanical Science and Engineering, UIUC, 1992-date 6. Associate Head, Department of Mechanical and Industrial Engineering, UIUC, 1996-99 7. Grayce Wicall Gauthier Professor, Department of Mechanical and Industrial Engineering, UIUC,

2000-04 8. C. J. Gauthier Professor, Department of Mechanical Science and Engineering, UIUC, 2004-2008 9. John, Alice, and Sarah Nyquist Chair, Department of Mechanical Science and Engineering, UIUC,

2008-date 10. Interim Head, Department of Mechanical and Industrial Engineering, UIUC, 2004-2005 11. Department Head, Department of Mechanical Science and Engineering, UIUC, 2005-2009

7. Professional Activities

a. Other Professional Employment (title, organization, location, inclusive dates)

1. Organized Workshop, "Behavior of Small Cracks," for industry, April 1985 2. Organized Workshop, "Crack Growth and Crack Closure," for industry, April 1987 3. Industrial Seminar to Midwest Ground Vehicle Industry on Mechanical Behavior of Engineering

Materials, 1985-2013 4. Organized Fracture Control Program Short Courses (twice a year) , 1989- to date

b. Major Consulting Activities (past five years) (list organization and location)

1. Ford Motor Company, 1998 2. FMC Corporation, 1998 3. Ncode, 2000 4. Pratt Whitney, 1986 5. Caterpillar, 1999 6. Allied Signal Corporation, 1994 7. General Motors, 2000

c. Professional Registrations (field, location, date)

8. Honors, Recognition, and Outstanding Achievements (list year)

1. Nadai Medal, American Society of Mechanical Engineers, 2007. For outstanding contributions to a greater understanding of mechanical behavior of metals through the integration of mechanics and materials science.

2. Marcus Grossman Award, American Society for Metals International, 1998. For best paper published in Metallurgical Transactions for an author at an age less than 40.

3. Fatigue Lecture, American Society of Testing Materials (ASTM) International Meeting, Vancouver, Canada, May 18-21, 2009. For an individual in recognition of extensive contributions to the field of fatigue of materials. It is not given every year and is under the discretion of the ASTM Executive Committee.

4. Founding Editor, ASM-SMST Journal - Shape Memory and Superelasticity (launched in 2015). This journal is jointly sponsored by American Society of Metals International and Shape Memory and Superplastic Technologies Society.

5. Honorary Membership, DVM (Deutsche Verbena fur Materialforschung und -pr_fung), German Association for Materials Research and Testing, 2015 (given to less than 20 researchers in the entire world).

6. Honorable Mention, Best Paper Award, American Society of Metals, Shape Memory and Superelasticity Journal, 2016

7. Best Paper Award,American Society of Metals, Shape Memory and Superelasticity Journal, 2017 (with grad student A. Ojha)

8. Honorary Doctorate Degree, Aalto University, Finland, 2018

a. Teaching

1. Listed on the Daily Illini "Incomplete List of Teachers Ranked as Excellent by Their Students" for Fall 1984, Fall 1985, Spring and Fall 1986, Fall 1987, Spring 1988, Fall 1995, Fall 2010, Spring 2011, Fall 2011, Spring 2012, Fall 2012

2. Campus Award for Excellence in Graduate Mentoring , University of Illinois, Urbana, 2012

b. Research

1. Institution of Mechanical Engineers Award,- The City University, London, England, 1979 2. Best Thesis Award, The City University, 1979 3. Research Initiation Award, National Science Foundation, 1984 4. Director, Mechanics and Materials, National Science Foundation, Washington, DC, 1991-93 5. Beckman Award, The Center for Advanced Study, 1993 6. Marcus Grossman Award, American Society for Metals International, 1998 7. Grayce Wicall Gauthier Professor, Department of Mechanical and Industrial Engineering, UIUC,

2000-2004 8. Editor, Journal of Engineering Materials and Technology, 2002-2008 9. Fellow, the American Society of Mechanical Engineers, 2003 10. Best Presentation Award, American Society of Testing Materials, 2003 11. Head, Department of Mechanical Science and Engineering, UIUC, 2005-2009 12. Interim Head, Department of Mechanical and Industrial Engineering, UIUC, 2004-2005 13. C. J. Gauthier Professor, Department of Mechanical and Industrial Engineering, UIUC, 2004-2009 14. Listed in Marquis Who_s Who in Science and Engineering, 2006-2007 Edition 15. Nadai Medal, American Society of Mechanical Engineers, 2007, For outstanding contributions to

a greater understanding of mechanical behavior of metals through the integration of mechanics and materials science.

16. Fatigue Lecture, American Society of Testing Materials (ASTM) International Meeting, Vancouver, Canada, May 18-21, 2009. The Fatigue Lecture Award is given by the ASTM Committee on Fatigue and Fracture to an individual in recognition of extensive contributions to the field of fatigue of materials. It is not given every year and is under the discretion of the ASTM Executive Committee.

17. Campus Award for Excellence in Graduate Mentoring , University of Illinois Urbana, 2012 18. Fellow, American Society of Metals International, for distinguished contributions in the area of

plasticity and thermal fatigue of structural materials.

c. Public Service

1. Director, Mechanics and Materials Program, National Science Foundation, 1991-1993

d. Others

1. Sir John Dawrance Award, The City University, London, England, 1977 2. F. H. Russell Prize,+ The City University, London, England, 1979 3. +First Place in Graduation

9. Web pages

Full website URL Text for link

http://publish.illinois.edu/mechse-html/ Research Website http://publish.illinois.edu/mechse-html/ High Temperature Materials Lab (HTML) FACTUAL INFORMATION

A. Resident Instruction and Continuing Education (attach Teaching Activity reports, which covers 10 years)

1. Resident Instruction (verify the information on the appended page for sections in which you had primary responsibility; pencil in corrections)

2. Continuing Education (credit courses only) (year, course, # of students, delivery method)

Course Year Number of Students

Delivery Method

Fatigue and Fracture Course, High Temperature Thermo-mechanical Fatigue

1993-2016 30 -70/year Lecture on Site, remotely

broadcast

B. Research, Creative, and Other Scholarly Activities

1. Publications

List publications in print or accepted, with authors' names ordered the way they appear on the publications. Provide inclusive page numbers for papers in proceedings and journals. Follow the outline given below for the organization of the list of publications. Within each category place items in chronological order.

(*) has undergone stringent editorial review by peers (**) invited and carries with it prestige and recognition (s) based on work as a student (w) co-authored with students you supervise (!) represents most important contribution of the past decade (P) derived from PhD thesis (D) co-authored with post-docs

a. Books Authored or Co-Authored

1. Original Editions

2. Revisions

b. Books Edited or Co-Edited

1. Original Editions

1. Sehitoglu, H., Co-editor (with S. Y. Zamrik), "Thermal Stress," American Society of Mechanical Engineers Journal of Pressure Vessel and Piping Technology, PVP-Vol. 123, 1987

2. Sehitoglu, H., Editor, Thermo-mechanical Behavior of Materials, ASTM STP 1186, 1993. 3. Sehitoglu, H. and Y. Chumlyakov, Guest Editors, _Shape Memory Alloys,_ ASME Journal

of Engineering Materials and Technology, Jan. 1999. 4. Sehitoglu, H., Co-Editor (with H. J. Maier), _Thermo-Mechanical Behavior of Materials,

ASTM STP 1371, 2000. 5. Portella, P.D., H. Sehitoglu, K.Hatanka, Editors, "Proceedings of the Fifth International

Conference on Low Cycle Fatigue," September 9-11, 2003, Berlin, Germany, Deutscher verband fur Materialforschung und- prufun, 2003.

2. Revisions

c. Chapters in Books

1. Sehitoglu, H., Thermal and Thermo-Mechanical Fatigue of Structural Alloys, Handbook on Fatigue and Fracture, ASM, 19, 527-554, 1996.

2. Sehitoglu, H., "Thermo-mechanical Deformation of Engineering Alloys and Components-Experiments and Modeling," NATO ASI - Mechanical Behavior of Materials at High Temperature, C. Moura Branco, R. Ritchie, and V. Sklenicka, eds., Kluwer, 349-379, 1996.

3. Sehitoglu, H., "The Effect of Particle Size on Thermo-Mechanical Fatigue of AlSiC Metal Matrix Composites," Fatigue under Thermal and Mechanical Loading: Mechanisms, Mechanics and Modeling, J. Bressers, L. R_my, M. Steen, and J. L. Vall_s, eds., Kluwer, 371-380, 1996.

d. Monographs (longer than an article, but shorter than a book)

1. Sehitoglu, H., "A New Journal Helping to Shape the Future of Materials Editorial," Shape Memory and Superelasticity Journal, March 2015.

e. Articles

1. Articles In Journals

1. (*) Sehitoglu, H. and D. L. McDiarmid, "The Effect of Load Stepdown on Fatigue Crack Arrest and Retardation," International Journal of Fatigue, 55 60, 1980.

2. (*) Sehitoglu, H., "Fatigue Life Prediction of Notched Members Based on Local Strain and Elastic Plastic Fracture Mechanics Concepts," Engineering Fracture Mechanics, 18:3, 609 621, 1983.

3. (*) Sehitoglu, H., "Characterization of Crack Closure," American Society for Testing and Materials, STP 868, 361 380, 1985.

4. (*) Sehitoglu, H., "Crack Opening and Closure in Fatigue," Engineering Fracture Mechanics, 21:2, 329 339, 1985.

5. (*) Sehitoglu, H., "Constraint Effect in Thermo-mechanical Fatigue," ASME Journal of Engineering Materials and Technology, 107, 221 226, 1985.

6. (*) Fec, M. C. and H. Sehitoglu, "Thermal-Mechanical Damage in Railroad Wheels Due to Hot Spotting," Journal of Wear, 102, 31 42, 1985.

7. (*) Sehitoglu, H., "Material Behavior under Thermal Loading," ASME Journal of Pressure Vessel and Piping Technology, 108:1, 113 119, 1986.

8. (*) Sehitoglu, H. and M. Karasek, "Observations of Material Behavior under Isothermal and Thermo-mechanical Loading," ASME Journal of Engineering Materials and Technology, 108:2, 192 198, 1986.

9. (*)(W) Slavik, D. and H. Sehitoglu, "Constitutive Models Suitable for Thermal Loading," ASME Journal of Engineering Materials and Technology, 108:4, 303-312, 1986.

10. (*)(W) Lalor, P., H. Sehitoglu, and R. C. McClung, "Mechanics Aspects of Small Crack Growth The Role of Crack Closure," The Behavior of Short Fatigue Cracks, EGF 1, 369 387, 1986.

11. (*) Sehitoglu, H., "Crack Growth Studies under Selected Temperature Strain Histories," Engineering Fracture Mechanics, 26:4, 475 489, 1987.

12. (*)(W) McClung, R. C. and H. Sehitoglu, "Closure Behavior of Short Cracks under High Strain Fatigue Histories," American Society for Testing and Materials, STP 982, 279 299, 1988.

13. (*)(W) Lalor, P. and H. Sehitoglu, "Fatigue Crack Closure Outside a Small-Scale Yielding Regime," American Society for Testing and Materials, STP 982, 342 360, 1988.

14. (*)(W) Karasek, M., H. Sehitoglu, and D. Slavik, "Deformation and Fatigue Damage in 1070 Steel under Thermal Loading," American Society for Testing and Materials, ASTM STP 942, 184 205, 1988.

15. (*) Sehitoglu, H., D. F. Socie, and D. W. Worthem, "Small Crack Growth Behavior during Biaxial Fatigue," American Society for Testing and Materials, Critical Experiments and Fundamental Questions in Fatigue, ASTM STP 924, 120 136, 1988.

16. (*)(W) Sehitoglu, H. and W. Sun, "The Significance of Crack Closure under High Temperature Fatigue Crack Growth with Hold Periods," Engineering Fracture Mechanics, 33:3, 371 388, 1989.

17. (*)(W)(!) McClung, R. C. and H. Sehitoglu, "On the Finite Element Analysis of Crack Closure, Part I: Basic Modeling Issues," Engineering Fracture Mechanics, 33:2, 237 252, 1989.

18. (*)(W) McClung, R. C, and H. Sehitoglu, "On the Finite Element Analysis of Fatigue Crack Closure-Part II: Numerical Results," Engineering Fracture Mechanics, 33:2, 253-272, 1989.

19. (*)(!) Sehitoglu, H., "Changes in State Variables at Elevated Temperatures," ASME Journal of Engineering Materials and Technology, 111, 192 203, 1989.

20. (*)(W)(!) Neu, R. and H. Sehitoglu, "Thermomechanical Fatigue, Oxidation, and Creep: Part I. Damage Mechanisms," Metallurgical Transactions, 20A, 1755 1767, 1989.

21. (*)(W) Neu, R. and H. Sehitoglu, "Thermomechanical Fatigue Oxidation and Creep: Part II. Life Prediction," Metallurgical Transactions, 20A, 1769 1783, 1989.

22. (*) Sehitoglu, H. and D. A. Boismier, "Thermo-mechanical Fatigue of Mar M247: Part 1 Experiments," ASME Journal of Engineering Materials and Technology, 112, 68 80, 1990.

23. (*)(W) Boismier, D. A. and H. Sehitoglu, "Thermo-mechanical Fatigue of Mar M247 Part 2 Life Prediction," ASME Journal of Engineering Materials and Technology, 112, 80 90, 1990.

24. (*)(W) Neu, R. and H. Sehitoglu, "Determination of Cone Bore Growth Due to Microstructural Changes," ASME Journal of Tribology, 112, 433 441, 1990.

25. (*)(W) Neu, R. and H. Sehitoglu, "Transformation of Retained Austenite in Carburized 4320 Steel," Metallurgical Transactions, 22A, 1491 1500, 1990.

26. (*) Sehitoglu, H., "Thermo-Mechanical Fatigue Life Prediction Methods," ASTM STP 1122, 47 77, 1990.

27. (*)(W) McClung, R. C. and H. Sehitoglu, "Characterization of Fatigue Crack Growth in Intermediate and Large Scale Yielding," ASME Journal of Engineering Materials and Technology, 113, 15 22, 1991.

28. (*)(W) Karayaka, M. and H. Sehitoglu, "Thermomechanical Fatigue of Particulate-Reinforced Aluminum 2xxx-T4," Metallurgical Transactions, 22:3, 697 708, 1991.

29. (*)(W) Sehitoglu, H. and W. Sun, "Modeling of Plane Strain Fatigue Crack Closure," ASME Journal of Engineering Materials and Technology, 113, 31 41, 1991.

30. (*)(W) Sehitoglu, H. and W. Sun, "Mechanisms of Crack Closure in Plane Strain and in Plane Stress," Fatigue under Biaxial and Multiaxial Loading, ESIS 10, 1 21, 1991.

31. (*)(W)(!) Neu, R. and H. Sehitoglu, "Stress Induced Transformations in a Carburized Steel - Experiments and Modeling," Acta Metallurgica, 40:9, 2257 2268, 1991.

32. (*)(W) Sun, W. and H. Sehitoglu, "Residual Stress Fields During Fatigue Crack Growth," Fatigue and Fracture of Engineering Materials and Structures, 15:2, 115-128, 1992.

33. (*)(W) Karayaka, M. and H. Sehitoglu, "Thermomechanical Cyclic Deformation of Metal Matrix Composites," ASTM STP, 1157, 101 120, 1992.

34. (*)(W) McClung, R. C. and H. Sehitoglu, "Closure and Growth of Fatigue Cracks at Notches," ASME Journal of Engineering Materials and Technology, 114:1, 1 7, 1992.

35. (*)(W) Sehitoglu, H. and M. Karayaka, ''Prediction of Thermomechanical Fatigue Lives in Metal Matrix Composites," Metallurgical Transactions, 23A, 2209-2038,1992.

36. (*)(W) Neu, R. and H. Sehitoglu, "Low Temperature Creep of a Carburized Steel," Metallurgical Transactions, 23:7, 2619 2624, 1992.

37. (*)(W) Neu, R. and H. Sehitoglu, "Thermal Induced Transformations of Retained Austenite in the Simulated Case of a Carburized Steel," ASME Journal of Engineering Materials and Technology, 115, 83 88, 1993.

38. (*)(W) Kadioglu, Y. and H. Sehitoglu, "Modeling of Thermomechanical Fatigue Damage in Coated Alloys," ASTM STP, 1186,17 34, 1993.

39. (*) Hour, K. Y. and H. Sehitoglu, "Damage Development in a Short Fiber Reinforced Composite," Journal of Composites, 27:8, 782-805, 1993.

40. (*)(W) Karayaka, M. and H. Sehitoglu, "Thermomechanical Deformation Modeling of A12xxx T4/SiC.p Composites," Acta Metallurgica, 41:1, 175 189, 1993.

41. (*)(W) Neu, R. and H. Sehitoglu, "Simulation of Cone Bore Growth in Bearings with a Three-Ring Model," ASME Journal of Applied Mechanics, 61:3,589 595, 1994.

42. (*) Jiang, R. and H. Sehitoglu, "An Analytical Approach to Elastic Plastic Stress Analysis of Rolling Contact," ASME Journal of Tribology, 116:3, 1994.

43. (*)(W) Neu, R. and H. Sehitoglu, "Measurement of Transformation Strain During Fatigue Testing," ASTM STP, 1231, 577 593, 1994.

44. (*) Jiang, R. and H. Sehitoglu, "Cyclic Ratchetting of 1070 Steel Under Multiaxial Stress States," International Journal of Plasticity, 10:5, 579 608, 1994.

45. (*) Jiang, R. and H. Sehitoglu, "Multiaxial Cyclic Ratchetting Under Multiple Step Loading," International Journal of Plasticity, 10:7, 1994.

46. (*)(W) Jiang, Y. and H. Sehitoglu, "Comments on MROZ Multiple Surface Type Plasticity Models," International Journal of Solids and Structures, 33:7, 1053-1068, 1996.

47. (*)(W) Kadioglu, Y. and H. Sehitoglu, "Thermomechanical and Isothermal Fatigue Behavior of Bare and Coated Superalloys," ASME Journal of Engineering Materials and Technology, 117, 94 102, 1996.

48. (*)(W)(!) Jiang, Y. and H. Sehitoglu, "Modeling of Cyclic Ratchetting Plasticity: Part 1 Development of Constitutive Relations," ASME Journal of Applied Mechanics, 63, 720 725, 1996.

49. (*)(W) ! Jiang, Y. and H. Sehitoglu, "Modeling of Cyclic Ratchetting Plasticity: Part 2 Comparison of Model Simulations with Experiments," ASME Journal of Applied Mechanics, 63, 726 733, 1996.

50. (*)(W) ! Gall, K., H. Sehitoglu, and Y. Kadioglu, "FEM Study of Fatigue Crack Closure Under Double Slip," Acta Metallurgica, 44:10, 3955 3965, 1996.

51. (*)(W) Karayaka, M. and H. Sehitoglu, "Failure Behavior of Unidirectional AS4/3501 6 Carbon Epoxy Laminates," Journal of Composite Materials, 30, 1150 1176, 1996.

52. (*)(W) Jiang, Y., and H. Sehitoglu, "Rolling Contact Stress Analysis with the Application of a New Plasticity Model,'' Wear, 191, 35 44, 1996.

53. (*)(W) Jacobus, K., H. Sehitoglu, and M. Balzer, "Effect of Stress State on the Stress-Induced Martensitic Transformation in Polycrystalline Ni TI Alloy," Metallurgical Transactions, 27:10, 3066 3073, 1996.

54. (*)(W) Sehitoglu, H., K. Gall, and A. M. Garcia, "Recent Advances in Fatigue Crack Growth Modeling," International Journal of Fracture, 80:2-3,165 192, 1996.

55. (*)(W) Gall, K., H. Sehitoglu, and Y. Kadioglu, "Plastic Zones and Fatigue Crack Closure Under Plane-Strain Double Slip," Metallurgical Transactions, 27:11, 3491 3502, 1996.

56. (*)(W) Balzer, M. and H. Sehitoglu, "A New Apparatus for Studying Mechanical Behavior Under Pressure, " Experimental Mechanics, 37:1, 87 95, March 1997.

57. (*)(W) Gall, K., H. Sehitoglu, and Y. Kadioglu, "A Methodology for Predicting Variability in Microstructurally Short Fatigue Crack Growth Rates," ASME Journal of Engineering Materials Technology, 119, 171 179, April 1997.

58. (*)(W) Garcia, A. M. and H. Sehitoglu, "Contact of Crack Surfaces During Fatigue, Part I Formulation of the Model," Metallurgical Transactions, 28A, 2263-2275, 1997.

59. (*)(W) Sehitoglu, H. and A. M. Garcia, "Contact of Crack Surfaces During Fatigue, Part 2 Simulations," Metallurgical Transactions, 28A, 2277 2289, 1997.

60. (*) Mazumder, J., H. Cheng, T. Yamomoto, T. Duffey, H. Sehitoglu, M. H. Jilavi, and W. M. Knver, "Nanocrystalline NbAL3 Powders and NbAL3/AL Multilayers by Laser Ablation Deposition," Nanostructured Materials, 9, 1 8, 1997.

61. (*)(W) Karaman, I., H. Sehitoglu, H. J. Maier, and M. Balzer, "Stress State Effects on the Stress Induced Martensitic Transformation of Carburized 4320 Steels," Metallurgical Transactions, 29A, 427 437, 1998.

62. (*)(W) Gall, K., H. Sehitoglu, and H. J. Maier, "Stress Induced Martensitic Phase Transformation in Polycrystalline CuZnAl Shape Memory Alloys in Different Stress States," Metallurgical Transactions, 29:3, 765 773, 1998.

63. (*)(W) Karaman, I., H. Sehitoglu, K. Gall, and Y. Chumlyakov, _On the Deformation Mechanisms in Single Crystal Hadfield Manganese Steels,_ Scripta Materialia, 38:6, 1009 1015, 1998.

64. (*)(W) Gall, K., H. Sehitoglu, Y. I. Chumlyakov, Y. L. Zuev, and I. Karaman, "The Role of Coherent Precipitates in Martensitic Transformations in Single Crystal and Polycrystalline Ti %0.8% Ni," Scripta Materialia, 39:6, 699 705, 1998.

65. (*) Chumlyakov, Y., H. Sehitoglu, I. V. Kireeva, E. I. Litvirova, E. G. Zakharova, and I. S. Kalashnikov, "Plastic Deformation in Single Crystals of Hadfield Steel," Doklady Physics, 43:7, 415 418, 1998.

66. (*)(W) Sehitoglu, H. and A. M. Garcia, "Contact of Nonflat Crack Surfaces During Fatigue," American Society of Testing Materials, STP 1343, 367 378, 1999.

67. (*)(W) Gall, K. and H. Sehitoglu, "The Role of Texture in Tension-Compression Asymmetry in Polycrystalline NiTi," International Journal of Plasticity, 15, 69-92, 1999.

68. (*)(W) Gall, K., H. Sehitoglu, Y. I. Chumlyakov, I. V. Kireeva, and H. J. Maier, "The Influence on Critical Transformation Stress Levels and Martensite Start Temperatures in NiTi: Part I_Aged Microstructure and Micro-Mechanical Modeling," Journal of Engineering Materials and Technology, 121:1, 19 27, 1999.

69. (*)(W) Gall, K., H. Sehitoglu, Y. I. Chumlyakov, I. V. Kireeva, and H. J. Maier, "The Influence of Aging on Critical Transformation Stress Levels and Martensite Start Temperatures in NiTi: Part II_Discussion of Experimental Results," Journal of Engineering Materials and Technology, 121:1, 28 37, 1999.

70. (*)(W) Gall, K., H. Sehitoglu, Y. Chumlyakov, and I. Kireeva, "Pseudoelastic Cyclic Stress Strain Response of Over-aged Single Crystal Ti 50.8%Ni," Scripta Materialia, 40:1, 7 12, 1999.

71. (*)(W) Smith, T. J., H. J. Maier, H. Sehitoglu, E. Fleury, and J. A. Allison, "Modeling High Temperature Stress Strain Behavior of Cast Aluminum Alloys," Metallurgical and Materials Transactions, 30A, 133 146, 1999.

72. (*)(W) Jiang, Y. and H. Sehitoglu, "A Model for Rolling Contact Failure," Wear, 224, 38 49, 1999.

73. (*)(W) Gall, K., H. Sehitoglu, Y. Chumlyakov, and I. Kireeva, "Tension Compression Asymmetry of the Stress Strain Response of Aged Single Crystal and Polycrystalline NiTi," Acta Materialia, 47:4, 1203 1217, 1999.

74. (*)(W) Saif, M. T. A., E. Alaca, and H. Sehitoglu, "Analytical Modeling of Electrostatic Membrane Actuator for Micro Pumps," Journal of MEMS, 8:3, 335-345, 1999.

75. (*)(W) Litvinova, E. I., I. V. Kireeva, E. G. Zaharova, N. V. Luzginova, Y. I. Chumlyakov, H. Sehitoglu, and I. Karaman, "Twinning in Hadfield Steel Single Crystals," Physical Mesomechanics, 2:1-2, 107 112, 1999.

76. (*) Chumlyakov, Y. I., I. V. Kireeva, H. Sehitoglu, E. I. Litvinova, E. G. Zaharova, and N. V. Luzginova, "High Strength Single Crystals of Austenitic Stainless Steels with Nitrogen Content: Mechanisms of Deformation and Fracture," Materials Science Forum, 318, 395 400, 1999.

77. (*)(W) Gall, K., T. J. Lim, D. McDowell, H. Sehitoglu, and Y. I. Chumlyakov, "The Role of Intergranular Constraint on the Stress-Induced Martensitic Transformation in Textured Polycrystalline NiTi," International Journal of Plasticity, 16, 1189 1214, 2000.

78. (*)(W) Chumlyakov, Y. I., I. V. Kireeva, E. I. Litvinova, E. G. Zakharova, N. V. Luzginova, S. P. Ephimenko, H. Sehitoglu, and I. Karaman, "Twinning in Gadfield Steel Single Crystals," Doklady Physics, 45:3, 101 104, 2000.

79. (*)(W) Sehitoglu, H., X. Qing, T. J. Smith, H. J. Maier, and J. A. Allison, "Stress Strain Response of Aluminum 319 T6 Under Thermomechanical Loading," Metallurgical and Materials Transactions, 31A:1, 139 152, 2000.

80. (*)(W) Andrews, S. D., H. Sehitoglu, and I. Karaman, "Constriction Energy in the Presence of a Solute Field," Journal of Applied Physics, 87:5, 2194-2203, 2000.

81. (*)(W) Sehitoglu, H., T. Smith, and H. J. Maier, "Thermo-mechanical Deformation of A1 319-T7B with Small Secondary Dendrite Arm Spacing," ASTM STP 1371, 53 68, 2000.

82. (*) Andrews, S. and H. Sehitoglu, "A Computer Model for Fatigue Crack Growth from Rough Surfaces," International Journal of Fatigue, 22:7, 619 630, 2000.

83. (*)(W) Karaman, I., K. Gall, H. Sehitoglu, and Y. Chumlyakov, "Deformation of Single Crystal Hadfield Steel by Twinning and Slip," Acta Materialia, 48, 1345-1359, 2000.

84. (*)(W) Karaman, I., H. Sehitoglu, A. J. Beaudoin, Y. Chumlyakov, H. J. Maier, and C. N. Tom_, "Modeling the Deformation Behavior of Hadfield Steel Single and Polycrystals due to Twinning and Slip," Acta Materialia, 48, 2031-2047, 2000.

85. (*)(W) Sehitoglu, H., I. Karaman, R. Anderson, X. Zhang, K. Gall, H. J. Maier, and Y. Chumlyakov, "Compressive Response of NiTi Single Crystals," Acta Materialia, 48, 3311 3326, 2000.

86. (*)(W) Chumlyakov, Y., I. Kireeva, E. Litvinova, E. G. Zakharova, N. V. Luzginova, H. Sehitoglu, and I. Karaman, "Strain Hardening in Single Crystals of Hadfield Steel," Physics of Metals and Metallography, 90, Suppl. 1, S1 S17, 2000.

87. (*)(W) Gall, K., H. Sehitoglu, R. Anderson, I. Karaman, Y. Chumlyakov, and I. V. Kireeva, "On the Mechanical Behavior of Single Crystal NiTi Shape Memory Alloys and Related Polycrystalline Phenomenon," Materials Science and Engineering, A317, 85 92, 2001.

88. (*)(W) Sehitoglu, H., R. Anderson, I. Karaman, K. Gall, and Y. Chumlyakov, "Cyclic Deformation Behavior of Single Crystal NiTi," Materials Science and Engineering, A314, 67 74, 2001.

89. (*)(W) Sehitoglu, H., I. Karaman, X. Y. Zhang, Y. Chumlyakov, and H. J. Maier, "Deformation of FeNiCoTi Shape Memory Single Crystals," Scripta Materialia, 44, 779 784, 2001.

90. (*)(W) Sehitoglu, H., I. Karaman, X. Zhang, H. Kim, Y. I. Chumlyakov, H. J. Maier, and I. V. Kireeva, "Deformation of NiTiCu Shape Memory Single Crystals in Compression," Metallurgical and Materials Transactions, 32A:3, 477 490, 2001.

91. (*)(W) Karaman, I., H. Sehitoglu, Y. I. Chumlyakov, H. J. Maier, and I. V. Kireeva, "The Effect of Twinning and Slip on the Bauschinger Effect on Hadfield Steel Single Crystals," Metallurgical and Materials Transactions, 32A:3, 695 706, 2001.

92. (*)(W) Karaman, I., H. Sehitoglu, Y. I. Chumlyakov, H. J. Maier, and I. V. Kireeva, "Extrinsic Stacking Faults and Twinning in Hadfield Manganese Steel Single Crystals," Scripta Materialia, 44, 337 343, 2001.

93. (*)(W) Sehitoglu, H., I. Karaman, X. Zhang, A. Viswanath, Y. Chumlyakov, and H. J. Maier, "Strain temperature Behavior of NiTiCu Shape Memory Single Crystals," Acta Materialia, 49, 3621 3634, 2001.

94. (*)(W) Gall, K., K. Juntunen, H. J. Maier, H. Sehitoglu, and Y. I. Chumlyakov, "Instrumented Micro Indentation of NiTi Shape Memory Alloys," Acta Materialia, 49, 3205-3217, 2001.

95. (*)(W) Sehitoglu, H., J. Jun, X. Zhang, I. Karaman, Y. Chumlyakov, H. J. Maier, and K. Gall, "Shape Memory and Pseudoelastic Behavior of 51.5% Ni Ti Single Crystals in Solutionized and Overaged State," Acta Materialia, 49, 3609 3620, 2001.

96. (*)(W) Gall, K., N. Yang, H. Sehitoglu, and Y. Chumlyakov, "Fracture of Precipitated Single Crystal and Polycrystalline NiTi Shape Memory Alloys," International Journal of Fracture, 109, 189 207, 2001.

97. (*)(W) Karaman, I., H. Sehitoglu, H. J. Maier, and Y. I. Chumlyakov, "'Competing Mechanisms and Modeling of Deformation in Austenitic Stainless Steel Single Crystals With and Without Nitrogen," Acta Materialia, 49:19, 3919 3933, 2001.

98. (*)(W) Chumlyakov, Y. I., S. P. Epinenko, I. V. Kireeva, E. Y. Panchenko, H. Sehitoglu, K. Gall, and L. H. Yahia, "Effects of Shape Memory and Superelasticity in Aged TiNi Single Crystals," Doklady Physics, 46:12, 849-852, 2001.

99. (*)(W) Jiang, Y., B. Xu, and H. Sehitoglu, "Three-dimensional Elastic-plastic Stress Analysis of Rolling Contact," Journal of Tribology, 124, 699-708, 2002

100. (*)(W) Alaca, B. E., M. T. A. Saif, and H. Sehitoglu, "On the Interface Debond at the Edge of a Thin Film on a Thick Substrate," Acta Materialia, 50, 1197-1209, 2002.

101. (*)(W) Gall, K., M. Dunn, Y. Liu, P. Labossiere, H. Sehitoglu, and Y. I. Chumlyakov, "Micro and Macro Deformation of Single Crystal NiTi," Journal of Engineering Materials and Technology A, 124, 238-245, 2002.

102. (*)(W) Chumlyakov, Y. I., E. Yu Panchenko, I.V. Kireeva, S. P. Efimenko, V. B. Aksenov, and H. Sehitoglu, _Dependence of Shape Memory Effect and Superelasticity on the Number of Variants of Dispersed Particles in Titanium-Nickel Single Crystals,_ Doklady Physics, 47:7, 510-514, 2002.

103. (*)(W) Zakharova, E. G., I. V. Kireeva, Yu I. Chumlyakov, S. P. Efimenko, H. Sehitoglu, and I. Karaman, _Deformation Mechanisms and Strain Hardening of Hadfield Steel Single Crystals Alloyed with Aluminum,_ Doklady Physics, 47:7, 515-517, 2002.

104. (*)(W) Karaman, I., H. Sehitoglu, Y. I. Chumlyakov, and H. J. Maier, _Deformation of Low Stacking Fault Energy Austenitic Steels,_ Journal of Metals, 54:7, 31-37, 2002.

105. (*)(W) Alaca, B., J. C. Selby, M. T. A. Saif, and H. Sehitoglu, "Biaxial Testing of Nanosccale Films on Compliant Substrates Fatigue and Fracture," Review of Scientific Instruments, 73:8, 2963-2970, 2002.

106. (*)(W) Sehitoglu, H., X. Y. Zhang, T. Kotil, D. Canadinc, Y. Chumlyakov, and H. J. Maier, "Shape Memory Behavior of FeNiCoTi Single and Polycrystals," Metallurgical and Materials Transactions, 33A, 3661-3672, 2002.

107. (*)(W) Chumlyakov, Y., I. Kireeva, E. Zakharova, N. Luzginova, H. Sehitoglu, and I. Karaman, _Strain Hardening and Fracture of Austenitic Steel Single Crystals with High Concentration of Interstitial Atoms,_ Russian Physics Journal, 45, 3, 2002.

108. (*)(W) Su, X., M. Zubeck, J. Lasecki, H. Sehitoglu, C. Engler, C. Tang, and J. Allison, "Thermo-mechanical Analysis of Cast Aluminum Engine Components," ASTM STP, 1428, 2003.

109. (*)(W) Newman, M, B. Robinson, H. Sehitoglu, and J. Dantzig, _Deformation Residual Stress and Constitutive Relations for Quenched W319 Aluminum,_ Metallurgical Transactions, 34A:7, 1483-1491, 2003.

110. (*)(W) Canadinc, D., I. Karaman, H. Sehitoglu, Y. Chumlyakov, and H. J. Maier, "The Role of Nitrogen on the Deformation Response of Hadfield Steel Single Crystals," Metallurgical and Materials Transactions, 34A:9, 1821-1831, 2003.

111. (*)(W) Engler Pinto Jr., C. C., H. Sehitoglu, and H. J. Maier, "Cyclic Behavior of AL319 T7B Under Isothermal and Nonisothermal Conditions," ASTM STP, 1428, 45-64, 2003.

112. (*)(W) Sehitoglu, H., D. Canadinc, R. Hamilton, X. Y. Zhang, K. Gall, I. Karaman, Y. Chumlyakov, and H. J. Maier, "Detwinning in NiTi Alloys," Metallurgical and Materials Transactions, 34A:1, 5-13, 2003.

113. (*)(W) Panchenko, E. Y., I. V. Kireeva, Y. I. Chumlyakov, V. B. Aksenov, S. P. Efimenko, I. Karaman, and H. Sehitoglu, _Features of Thermoelastic Martenstic Transformations in [001] Titanium-Nickel Single Crystals,_ Doklady Physics, 48, 34-37, 2003.

114. (*)(W) Kotil T., H. Sehitoglu, H. J. Maier, and Y. I. Chumlyakov, _Transformation and Detwinning Induced Electrical Resistance Variations in NiTiCu,_ Materials and Engineering, A359, 280-289, 2003.

115. (*)(W) Chumlyakov, Y., I. V. Kireeva, E. Y. Panchenko, V. B. Aksenov, V. A. Kirillov, A. V. Ovsyannikov, E. G. Zakharova, and H. Sehitoglu, _Shape Memory Effect and Superelasticity in Ti-Ni and Fe-Ni-Co-Ti Single Crystals,_ Russian Physics Journal, 46:8, 811-823, 2003.

116. (*)(W) Chumlyakov, Y., E. Y. Panchenko, I. V. Kireeva, D. A. Shaporov, V. B. Aksenov, H. Sehitoglu, I. Karaman, K. Gall, and H. Maier, _The Shape Memory Effect and

Superelasticity in Nickel-Titanium Single Crystals Aged Under Applied Stress,_ J. de Physique IV, 112, 799-802, 2003.

117. (*)(W) Sehitoglu, H., R. Hamilton, H. J. Maier, and Y. Chumlyakov, _Hysteresis in Ni-Ti Alloys,_ J. de Physique IV, 115, 3-10, 2003.

118. (*)(W) Hamilton, R. F., H. Sehitoglu, Y. Chumlyakov, and H. J. Maier, _Stress Dependence of the Hysteresis in Single Crystal Ni-Ti Alloys,_ Acta Materialia, 52, 3383-3402, 2004.

119. (*)(W) Zhang, X. and H. Sehitoglu, _Crystallography of the B2→R→B19_ Phase Transformations of NiTi,_ Materials Science and Engineering., A374, 292-302, 2004.

120. (*)(W) Efstathiou, C., H. Sehitoglu, A. J. Wagoner Johnson, R. F. Hamilton, H. J. Maier, and Y. Chumlyakov, _Large Reduction in Critical Stress in Co-Ni-AL upon Repeated Transformation,_ Scripta Materialia, 51, 979-985, 2004.

121. (*)(W) Chumlyakov, Y I.., I. V. Kireeva, E. Y. Panchenko, E. G. Zakharova, V. A. Kirillov, S. P. Efimenko, and H. Sehitoglu, _Shape Memory Effects in FeNiCoTi Single Crystals Undergoing Gamma to Alpha Thermoelastic Martensitic Transformations, Doklady Physics, 49:1, 47-59, 2004.

122. (*)(W) Alaca, E., Sehitoglu, H. and T. Saif, _Guided Self-assembly of Metallic Nanowires and Channels,_ Appl. Phys. Letters, 84:23, 4669-4671, 2004.

123. (*)(W) Kibey, S., H. Sehitoglu, and D. Pecknold, _Modeling of Fatigue Crack Closure in Inclined and Deflected Cracks,_ Int. J. Fracture, 129:3, 279-308, 2004.

124. (*)(W) Chumlyakov, Y. I., E. Y. Panchenko, V. B. Aksenor, I. V. Kireeva, M. P. Kulesa, I. Karaman, and H. Sehitoglu, _The Shape Memory Effect and Superelasticity in Ti-Ni Single Crystals with One Variant Dispersed Particles,_ J. de Physique IV, 115, 21-28, 2004.

125. Karaman, I., E. G. Zakharova, I. V. Kireeva, Y. I. Chumlyakov, A. Shulmina, and H. Sehitoglu, _The Effect of Aluminum on Strength and Deformation Mechanisms in Hadfield Steel Single Crystals,_ J. de Physique IV, 115, 243-250, 2004.

126. (*)(W) Sehitoglu, H., T. Foglesong, and H. J. Maier, _Precipitate Effects on the Mechanical Behavior of Aluminum Copper Alloys _ Part I: Experiments,_ Metal. and Materials Trans., 36A, 749-761, 2005.

127. (*)(W) Sehitoglu, H. T. Foglesong, and H. J. Maier, _Precipitate Effects on the Mechanical Behavior of Aluminum Copper Alloys _ Part II: Modeling,_ Metal and Materials Trans., 36A, 763-770, 2005.

128. (*)(W) Canadinc, D., H. Sehitoglu, H. J. Maier, and Y. Chumlyakov, _Strain Hardening Behavior of Aluminum Alloyed Hadfield Steel Single Crystals,_ Acta Materialia, 53, 1831-1842, 2005.

129. (*)(W) Sehitoglu, H., C. Efstathiou, H. J. Maier, and Y. Chumlyakov, _Magnetization, Shape Memory and Hysteresis Behavior of Single and Polycrystalline FeNiCoTi,_ J. Magnetism and Magnetic Materials, 292, 89-99, 2005.

130. (*)(W) Wagoner Johnson, A., R. F. Hamilton, H. Sehitoglu, G. Baillas, H. J. Maier, Y. I. Chumlyakov, and H. S. Woo, _Analysis of Multistep Transformations in Single Crystal NiTi,_ Met. and Materials Trans., 36A:4, 919-928, 2005.

131. (W) Hamilton, R. F., H. Sehitoglu., C. Efstathiou, H. J. Maier, Y. Chumlyakov, and X. Y. Zhang, _Transformation of Co-Ni-Al Single Crystals in Tension,_ Scripta Materialia, 53:1, 131-136, 2005.

132. (*)(W) Sehitoglu, H., C. Efstathiou, H. J. Maier, and Y. Chumlyakov, _Hysteresis and Deformation Mechanisms of Transforming FeNiCoTi,_ Mechanics of Materials, 38, 538-550, 2006.

133. (W) Hamilton, R. F., C. Efstathiou, H. Sehitoglu, and Y. Chumlyakov, _Thermal and Stress-Induced Martensitic Transformations in NiFeGa Single Crystals under Tension and Compression,_ Scripta Materialia, 54:3, 465-469, 2006.

134. (W) Hamilton, R. F., H. Sehitoglu, C. Efstathiou, H. J. Maier, and Y. Chumlyakov, _Pseudoelasticity in Co-Ni-AL Single and Polycrystals,_ Acta. Materialia, 54, 587-599, 2006.

135. (W) Kibey, S., J. B. Liu, M. J. Curtis, D. D. Johnson, and H. Sehitoglu, _Effect of Nitrogen on Generalized Staking Fault Energy and Stacking Fault Widths in High Nitrogen Steels, _Acta Materialia, 54, 2991-3001, 2006.

136. (W) Callaway, J. D., H. Sehitoglu, R. F. Hamilton, K. Aslantas, N. Miller, H. J. Maier, and Y. Chumlyakov, _Magnetic Shape Memory in Ni2MnGa as Influenced by the Deformation Response_ Applied Physics Letters, 89:22, 221905, 2006.

137. (W) Kibey, S., J. B. Liu, D. D. Johnson, and H. Sehitoglu, _Generalized Planar Fault Energies and Twinning in Cu-AL Alloys,_ Applied Physics Letters, 89:19, 191911, 2006.

138. Kuznetsov, E. Y., A. V. Tverdokhlebova, Y. I. Chumlyakov, I. Karaman, and H. Sehitoglu, _Thermoelastic martensitic transformations, shape memory effect, and superelasticity in Ni54 Fe19 Ga27 ferromagnetic single crystals,_ Panchenko, Bulletin of the Russian Academy of Sciences: Physics, 70:9, 1549-1553, 2006.

139. (W) Callaway, J. D., R. F. Hamilton, H. Sehitoglu, N. Miller, H. J. Maier, and Y. Chumlyakov, _Shape Memory and Martensitic Deformation Response of Ni2Mn Ga,_ Smart Materials and Structures, 16, S108-S114, 2007.

140. (W) Canadinc, D., H. Sehitoglu, H. J. Maier, D. Niklasch, and Y. Chumlyakov, _Orientation Evolution in Hadfield Steel Single Crystals under Combined Slip and Twinning,_ International Journal Solids and Structures, 44, 34-50, 2007.

141. (W) Canadinc, D., H. Sehitoglu, and H. J. Maier, _The Role of Dense Dislocation Walls on the Deformation Response of Aluminum Alloyed Hadfield Steel Polycrystals,_ Materials Science and Engineering A, 454, 662-666, 2007.

142. Astafurova, E. G., I. V. Kireeva, Y. I. Chumlyakov, H. J. Maier, and H. Sehitoglu, _The Influence of Orientation and Aluminum Content on the Deformation Mechanisms of Hadfield Steel Single Crystals,_ International Journal of Materials Research, 98:2, 144-149, 2007.

143. Chumlyakov, Y., E. Panchenko, I. Kireeva, I. Karaman, H. Sehitoglu, H. J. Maier, A. Tverdokhlebova and A. Ovsyannikov, _Orientation Dependence and Tension/Compression Asymmetry of Shape Memory Effect and Superelasticity in Ferromagnetic Co 40 Ni 33 Al 27, Co 49 Ni 21 Ga 30 and Ni 54 Fe 19 Ga 27 Single Crystals,_ Materials Science and Engineering: A, in Press, 2007.

144. (W) Hamilton, R. F., H. Sehitoglu, C. Efstathiou and H. J. Maier, _Inter-martensitic transitions in Ni-Fe-Ga single crystals,_ Acta Materialia, Volume 55, Issue 14, Pages 4867-4876, August 2007.

145. (W) Canadinc, D., H. Sehitoglu, H. J. Maier, and P. Kurath, _On the Incorporation of Length Scales Associated with Pearlitic and Bainitic Microstructures into a Visco-Plastic Self-Consistent Model,_ Materials Science and Engineering: A, In Press, Available online 26 August 2007.

146. (W) Hamilton, R. F., H. Sehitoglu, C. Efstathiou, and H .J. Maier, _Mechanical Response of NiFeGa Alloys Containing Second-phase Particles,_ Scripta Materialia, 57:6, 497-499, September 2007.

147. (W) Efstathiou, C., H. Sehitoglu, P. Kurath, S. Foletti, and P. Davoli, _Fatigue Response of NiFeGa Single Crystals,_ Scripta Materialia, 57:5, 409-412, September 2007.

148. (W) ! Kibey, S., J. B. Liu, D.D. Johnson, and H. Sehitoglu, _Predicting Twinning Stress in FCC Metals: Linking Twin-energy Pathways to Twin Nucleation,_ Acta Materialia, 55, 6843-6851, 2007.

149. (W) Kibey, S., J. B. Liu, D. D. Johnson, and H. Sehitoglu, "Energy Pathways and Directionality in Deformation Twinning,_ Applied Physics Letters, 91, 181916, 2007.

150. (W) Canadinc, D., H. Sehitoglu, and K. Verzal, _Analysis of Surface Crack Growth under Rolling Contact Fatigue,_ International Journal of Fatigue, 30:9, 1678-1689, 2008.

151. (W) Hamilton, R. F., H. Sehitoglu, K. Aslantas, C. Efstathiou, and H. J. Maier, _Inter-martensite Strain Evolution in NiMnGa Single Crystals_ Acta Materialia, 56:10, 2231-2236, 2008.

152. (W) Efstathiou, C., H. Sehitoglu, J. Carroll, J. Lambros, and H. J. Maier, _Full-field Strain Evolution during Intermartenisitic Transformations in Single Crystal NiFeGa,_ Acta Materialia, 56, 3791-3799, 2008.

153. (W) Canadinc, D., C. Efstathiou, H. J. Maier, and H. Sehitoglu, _On the Negative Strain Rate Sensitivity of Hadfield Steel,_ Scripta Materialia,59,10,1103-1106, 2008.

154. (W) Efstathiou, C. and H. Sehitoglu, _Local Transformation Strains in Precipitated NiTi Single Crystals,_ Scripta Materialia,59, 1263-1266, 2008.

155. (W) Panchenko, E. Y., Y. I. Chumlyakov, I. V. Kiereeva, A. V. Ovsyannikov, H. Sehitoglu, I Karaman, and H. J. Maier, _Effect of Disperse Ti3Ni4 Particles on the Martensitic Transformations in Titanium Nickelide Single Crystals,_ Physics Metals and Metallography, 106, 577-589, 2008.

156. (W) Efstathiou, C., and H. Sehitoglu, _Strengthening Hadfield Steel Welds by Nitrogen Alloying,_ Materials Science and Engineering: A, 506,1-2,174-179,2009.

157. (W) Kibey, S., H. Sehitoglu, and D. D. Johnson, _Energy Landscape for Martensitic Phase Transformation in Shape Memory NiTi,_ Acta Materialia, 57,5,1624-1629, 2009.

158. (W) Kibey, S., L. L. Wang, J. B. Liu, H. T. Johnson, H. Sehitoglu, and D. D. Johnson, _Quantitative Prediction of Twinning Stresses in FCC Alloys: Applications to Cu-AL,_ Physical Review, 79, 214202, 2009.

159. (W) Carroll, J, C. Efstathiou, J. Lambros, H. Sehitoglu, B. Hueber, S. Spottswood, and R. Chona, _Investigation of Fatigue Crack Closure using Mulitscale Image Correlation Experiments,_ Engineering Fracture Mechanics, 76,2384-2398, 2009.

160. (W) Efstathiou, C., H. Sehitoglu, and J. Lambros, "Multiscale Strain Measurements of Plastically Deforming Polycrystalline Titanium: Role of Deformation Heterogeneities," International Journal of Plasticity, 26:1, 93-106, 2010.

161. (W) Efstathiou, C. and H. Sehitoglu, "Strain Hardening and Heterogeneous Deformation during Twinning in Hadfield Steel," Acta Materialia,58,5,1479-1488, 2010.

162. (W) Sangid, M., H. Sehitoglu, H. J. Maier, and T. Niendorf," Grain Boundary Characterization and Energetics of Superalloys," Materials Science and Engineering: A, 527, 26, 7115-7125, 2010.

163. (W) Carroll,J., W. Abuzaid, J. Lambros, and H. Sehitoglu, "An Experimental Methodology to Relate Local Strain to Microstructural Texture," Rev. Sci. Instrum. 81, 083703, 2010.

164. (W) Sangid, M., H.J.Maier, and H. Sehitoglu, "The Role of Grain Boundaries on Fatigue Crack Initiation - An Energy Approach," I. J. Plasticity, 27, 801-821, 2011

165. (W) Sangid, M. D., T. Ezaz, H. Sehitoglu, and I. M. Robertson, "Energy of Slip Transmission and Nucleation at Grain Boundaries," 59,1, 283-296, 2011

166. (W) Sangid, M. D., H. J. Maier, and H. Sehitoglu, "Physically-based Fatigue Model for Prediction of Crack Initiation from Persistent Slip Bands in Polycrystals," Acta Materialia, 59,1,328-341, 2011

167. (W) Dilibal, S., H. Sehitoglu, R. Hamilton, H.J.Maier, Y. Chumlyakov,"On the Volume Change in Co-Ni-Al during Pseudoelasticity", Materials Science and Engineering A, 528,6, 2875-2881, 2011

168. (W) Sangid, M., H. Sehitoglu, and H.J. Maier, "An Energy-based Microstructure Model to Account for Fatigue Scatter in Polycrystals," J. Mechanics and Physics of Solids,59, 3,595-609, 2011.

169. (W) Ezaz,T., M. Sangid, and H. Sehitoglu, "Energy Barriers Associated with Slip-Twin Interactions," Philosophical Magazine A,Vol.91,No.10,1464-1488, 2011.

170. (W) Hamilton, R.F., S.Dilibal, H. Sehitoglu, and H.J.Maier, "Underlying Mechanism of Dual Hysteresisin NiMnGa Single crystals," Materials Science and Engineering: A, 528, 3, 1877-1881, 2011

171. (W) Ezaz,T., and H. Sehitoglu, "Type II Detwinning in NiTi," Applied Physics Letters, Vol.98,Issue.14, 2011.

172. (W) Ezaz,T., and H. Sehitoglu, "Coupled Shear and Shuffle Modes During Twin Growth in B2-NiTi," Applied Physics Letters, 98, 241906, 2011.

173. (W) Ezaz, T., H. Sehitoglu, and H. J. Maier, "Energetics of Twinning in Martensitic NiTi," Acta Materialia, 59, 15, 5893-5904, 2011.

174. (W) Sangid, M., G. J. Pataky, H. Sehitoglu, R. G. Rateick, T. Niendorf, and H. J. Maier, "Superior Fatigue Crack Growth Resistance, Irreversibility, and Fatigue Crack Growth _Microstructure Relationship of Nanocrystalline Alloys Acta Materialia," 59:19, 7340-7355, 2011.

175. (W) Ezaz, T., H. Sehitoglu, and H. J. Maier, "Energetics of (114) Twinning in B2 NiTi under Coupled Shear and Shuffle," Acta Materialia, 60, 1, 339-348, 2012.

176. (W) Sangid, M., G. J. Pataky, H. Sehitoglu, R. F. Hamilton, and H. J. Maier, "High Resolution Analysis of Opening and Sliding in Fatigue Crack Growth," International Journal of Fatigue, 37, 134-145, 2012.

177. (W) Sangid, M. D., T. Ezaz, and H. Sehitoglu, "Energetics of Residual Dislocations Associated with Slip_twin and Slip_GBs Interactions," to appear in Materials Science and Engineering A, 541, 22-30, 2012.

178. (W) Abuzaid, W., M. Sangid, J. Carroll, H. Sehitoglu, and J. Lambros, "Slip Transfer and Plastic Strain Accumulation Across Grain Boundaries in Hastelloy X," Journal of the Mechanics and Physics of Solids, 60,6,1201-1220, 2012.

179. (W) Canadinc, D., H. Sehitoglu, and Y. Jiang, "Investigation of Fatigue Crack Initiation due to Rolling Contact," to appear in Fatigue & Fracture of Engineering Materials & Structures, 2012.

180. (W) Pataky, G., H. Sehitoglu, R. Hamilton, M. Sangid, and P. Sofronis, "Mixed Mode Fatigue Crack Growth in 316 Stainless Steel," Engineering Fracture Mechanics, 94,13-28, 2012.

181. (W) Ezaz, T., H.Sehitoglu, W. Abuzaid, and H.J.Maier, "Higher Order Twin Modes in Martensitic NiTi- The (201) Case," Materials Science and Engineering A, A,558,422-430, 2012.

182. (W) Wang, J., and H. Sehitoglu, "Resolving Quandaries Surrounding NiTi," 101, 8, p.081907, Applied Physics Letters, 2012.

183. (W) Sehitoglu, H., J. Wang, and H. J. Maier, "Transformation and Slip Behavior of Ni2FeGa," International J. Plasticity, 39,61-77,2012.

184. (W) Carroll, J.D., W. Abuzaid, J. Lambros, and H. Sehitoglu, _High Resolution Digital Image Correlation Measurements of Strain Accumulation in Fatigue Crack Growth,_ International Journal of Fatigue, 37,134-145, 2012.

185. (W) Abuzaid,W., H. Sehitoglu, J. Lambros, "Plastic Strain Localization and Fatigue Micro-crack Formation in Hastelloy X," Materials Science and Engineering A, 60,6, 1201-1220, 2012.

186. (W) Pataky, G., H. Sehitoglu, and H.J. Maier, "Very High Temperature Fatigue Crack Growth in Haynes 230," Materials Characterization, 75,69-78, 2013.

187. (W) Ezaz, T., J. Wang, H. Sehitoglu, and H.J. Maier, "Plastic Deformation of NiTi Shape Memory Alloys," Acta Materialia, , 61,1,67-78, 2012.

188. (W) Patriarca,L., W.Abuzaid, H. Sehitoglu, H. J. Maier, and Y. Chumlyakov, "Twin Nucleation and Migration in FeCr Single Crystals," Materials Characterization, A,_75,165-175, 2013.

189. (W) W. Abuzaid, A.Oral, H. Sehitoglu, J. Lambros, H.J.Maier, Fatigue Crack Initiation in Hastelloy X _ The Role of Boundaries, Fatigue and Frature of Engineering Materials and Structures, 2013

190. (W) Chowdhury, P., H. Sehitoglu, H.J.Maier, and R. Rateick, Modeling Fatigue Crack Growth Resistance of Nanocrystalline Alloys, Acta Materialia, 61, 7, 2531-2547, 2013.

191. (W) Gross, D., K. Nygren, G. Pataky, J. Kacher, H. Sehitoglu, and I.R. Robertson, "The Evolved Microstructure of an Arrested Fatigue Crack in Haynes 230," Acta Materialia, 61, 15, 5768_5778, 2013.

192. (W) Patriarcha, L., W. Abuzaid, H. Sehitoglu, H.J. Maier, "Slip Transmission in bcc FeCr Polycrystal," Materials Science and Engineering, A 588, 308-317, 2013

193. (W) Swaminathan, B., J. Lambros, and H. Sehitoglu, "Mechanical Response of a Nickel Superalloy under Thermal and Mechanical Cycling: Uniaxial and Biaxial Stress States,_ to appear in The Journal of Strain Analysis for Engineering Design, 49,4,233-243, 2014.

194. (W) Wang, J., H. Sehitoglu, "Twinning Stress in Shape Memory Alloys-Theory and Experiments," 61, Acta Materialia,6790-6801, 2013

195. (W) Carroll, J.D., W.Z. Abuzaid, J. Lambros,and H. Sehitoglo, "On the interactions between strain accumulation, microstructure, and fatigue crack behavior," International Journal of Fracture, 180, 2, 223-241, 2013.

196. (W) Pataky, G.J., H. Sehitoglu, and H.J. Maier, "Creep deformation and mechanisms in Haynes 230 at 800_C and 900_C," Journal of Nuclear Materials, 443 (1), 484-490, 2013.

197. (W) Wang, J., H. Sehitoglu, and H.J. Maier, "Dislocation Slip Stress Prediction in Shape Memory Alloys," I. Journal Plasticity, 54, 247-266, 2013.

198. (W) Caspersen, M., J. Carroll, J.Lambros, H. Sehitoglu, and R. Dodds, "In vestigation of thermal effects on fatigue crack closure using muti-scale digital image correlation," I. J. Fatigue, 61, 2014, 10-20.

199. (W) Chen, Q., B. Andrawes, and H. Sehitoglu, "Thermomechanical Testing of FeNiCoTi Shape Memory Alloy for Active Confinement in Concrete," Smart Materials and Structures, 23, 1, 2014.

200. (W) Wang, J. and H. Sehitoglu, "Modeling of Pseudoelasticity via Reversible Slip in Fe3Ga," Computational Materials Science, 87, 34-42, 2014.

201. (W) Ohja, A., H. Sehitoglu, L. Patriarca, and H.J. Maier, "Twin Migration in Fe-based BCC Crystals-Theory and Experiments," Philosophical Magazine, 94, 16, 1816-1840, 2014.

202. (W) Wang,J. and H. Sehitoglu, "Dislocation Slip and Twinning in Ni-based L12 type Alloys," Intermetallics, 52, 20-31, 2014.

203. (W) Wang, J. and H. Sehitoglu, "Modeling of Martensite Slip and Twinning in NiTiHf Alloys," Philosophical Magazine,94, 20, 2297-2317, 2014.

204. (W) Wang, J. and H. Sehitoglu, "Modeling of Pseudotwinning in Fe3Ga," to appear in Modeling and Simulation in Materials Science and Engineering, 22, 055008, 2014.

205. (W) Wang, J. and H. Sehitoglu, "Martensite Modulus Dilemma in Monoclinic NiTi-Theory and Experiments," I. J. Plasticity, 61, 17_31, 2014.

206. (W) Chowdhury, P., H. Sehitoglu, and R. Rateick, "Fatigue Threshold Determination in the Presence of Microstructural Barriers - Part 1," International Journal of Fatigue, 68, 277-291, 2014.

207. (W) Chowdhury, P., H. Sehitoglu, and R. Rateick, "Fatigue Threshold Determination in the Presence of Microstructural Barriers - Part 2," International Journal of Fatigue, 68, 292-301, 2014.

208. (W) Pataky, G. and H. Sehitoglu, "Experimental methodology for studying strain heterogeneity with microstructural data from high temperature deformation," Experimental Mechanics, v 55, n 1, p 53-63, 2015.

209. (W) Ojha, A., H. Sehitoglu, L. Patriarcha, and H.J. Maier, "Twin Nucleation in Fe-based BCC Alloys-Modeling and Experiments," Modeling and Simulation in Materials Science and Engineering, v 22, n 7, 2014.

210. (W) Ojha, A. and H. Sehitoglu, "Modeling of Twin Stress in bcc Metals and Alloys," Philosophical Magazine Letters, v 94, n 10, p 647-657, 2014.

211. (W) Swaminathan, B., W. Abuzaid, H. Sehitoglu, and J.Lambros, "Investigation using digital image correlation of Portevin-Le Chatelier in Hastelloy X under thermo-mechanical loading," I. Journal of Plasticity, v 64, p 177-192, September 16, 2014.

212. (W) Patriarca, L., and H. Sehitoglu, "High-temperature superelasticity of Ni50.6Ti24.4Hf25.0 shape memory alloy," Scripta Materialia, 101, 12-15 2015.

213. (W) Rabbolini, S. (Department of Mechanical Engineering Politecnico di Milano Via La Masa 1 20156 Milan Italy), G.J. Pataky, H. Sehitoglu, and S.,Beretta, Fatigue crack growth in Haynes 230 single crystals: An analysis with digital image correlation, to appear in Fatigue and Fracture of Engineering Materials and Structures, 2015.

214. (W) Wu, Y., A. Ojha, L. Patriarca, and H. Sehitoglu, "Fatigue Crack Growth Fundamentals in Shape Memory Alloys," to appear in Shape Memory and Superelasticity Journal, Inaugural Issue, March 2015.

215. (W) Chowdhury, P., H. Sehitoglu, and H.J. Maier, _Mechanical Response of Low Stacking Fault Energy Co-Ni Alloys _ Continuum, Mesoscopic and Atomic Level Treatments,_ I. J. Plasticity, 71,32-61, 2015.

216. (W) Ojha, A., L. Patriarca, and H. Sehitoglu, "Pseudoelasticity in Fe3Ga with Boron-A Combined Atomistic-Micromechanical Treatment,” I. J. Plasticity, 72 , 185-199, 2015.

217. (W) Pataky, G.J., E. Ertekin, and H. Sehitoglu, "Elastocaloric cooling potential of NiTi, Ni2FeGa, and CoNiAl," Acta Materialia, 96, 420–427, 2015.

218. (W) Ojha, A., S.Alkan, L.Patriarca, H. Sehitoglu, and Y.Chumlyakov, "Shape memory behavior in Fe3Al- Modeling and Experiments," Philosophical Magazine, http://dx.doi.org/10.1080/14786435.2015.1066939, 2015.

219. (W) Chowdhury, P., H. Sehitoglu, H.J. Maier, and R. Rateick, "Strength Prediction in NiCo Alloys – The Role of Composition and Nanotwins," to appear in I. J. Plasticity, 2015.

220. (W) Ojha, A. and H. Sehitoglu, "Critical Stress for the bcc-hcp martensite nucleation in Ti-6.25at.%Ta and Ti-6.25at.%Nb alloys," Editors Choice, Computational Materials Science, 111, 157_162, 2016.

221. (W) Panchenkoa, E.Y., Yu. I. Chumlyakov, N. Y. Surikova, H. J. Maier, G. Gerstein, and H. Sehitoglu, "Superelasticity in HighStrength Heterophase Single Crystals of Ni51.0Ti36.5Hf12.5 Alloy," Technical Physics Letters, 41, 8, 797_800, 2015.

222. (W) Wu, Y., L. Patriarca, G. Li, H. Sehitoglu, Y. Soejima, T. Ito, and M. Nishida, "Shape Memory Response of Polycrystalline NiTi-12.5Hf Alloy- Transformation at Small Scales," Shape Memory and Superelasticity,1,3, 2015.

223. (W) Patriarca, L., A. Ojha, H. Sehitoglu, and Y.I. Chumlyakov, "Slip nucleation in single crystal FeNiCoCrMn high entropy alloy," Scripta Mater., 112,54-57, 2016.

224. (W) Chowdhury, P., G. Ren, and H. Sehitoglu, "Bridging the Gap in Modeling NiTi Superelasticity," Phil. Mag Letters, 2016.

225. (W) Alkan, S., P. Chowdhury, H. Sehitoglu, R. Rateick, and H. J. Maier, "Role of Nanotwins on Fatigue Crack Growth Resistance -Experiments and Theory," I. J. Fatigue, 2016.

226. (W) Ojha, A. and H. Sehitoglu, "Slip Resistance of Ti Based High Temperature Shape Memory Alloys," Shape Memory and Superelasticity,1,5, 2016.

227. (W) Chowdhury, P. and H. Sehitoglu, "Mechanisms of fatigue crack growth _ A critical digest of theoretical developments," Fatigue and Fracture of Eng. Mats.Structures, 2016 (pdf).

228. (W) Patriarca, L., Y.Wu, and H. Sehitoglu, "High Temperature Shape Memory Behavior of NiTiHf Single Crystals," Scripta Materialia, 2016 (pdf).

229. (W) Patriarca, L., H. Sehitoglu, E. Yu. Panchenko, and Y.I. Chumlyakov, "High-temperature functional behavior of single crystalNi Ti Hf shape memory alloy," Acta Materialia, 2016.

230. (W) Chowdhury, P., L. Patriarca, G.Ren, and H. Sehitoglu, "Modeling NiTi Superelasticity in Presence of Nanoprecipitates," I. J. Plasticity, 2016.

231. (W) Abuzaid, W., H. Sehitoglu, and J. Lambros, "Localization of Plastic Strain at the Microstructurlal level in Hastelloy X subjected to Monotonic, Fatigue, and Creep loading: The role of grain boundaries and slip transmission," Materials at High Temperatures, 2016.

232. (W) Chowdhury, P., H. Sehitoglu, and R. Rateick, "Recent advances in modeling fatigue cracks at microscale in the presence of high density coherent twin interfaces," Current Opinion in Solid State and Materials Science, 2016.

233. (W) Rabbolini, S., P. Luccarelli, S.Foletti, S. Beretta, and H. Sehitoglu, "Near-tip closure and cyclic plasticity in Ni-based single crystals," International Journal of Fatigue, 2016.

234. (W) Chowdhury, P. and H. Sehitoglu, "Significance of slip propensity determination in shape memory alloys," Viewpoint article, Scripta Materialia, 2016.

235. (W) Wu, Y., L.Patriarcha, H.Sehitoglu, and Y.Chumlyakov, "Ultrahigh Tensile Transformation Strains in New Ni50.5Ti36.2Hf13.3 Shape Memory Alloy," Scripta Materialia, 2016.

236. (W) Ojha, A. and H. Sehitoglu, "Critical Stresses for Twinning, Slip, and Transformation in Ti-Based Shape Memory Alloys," Shape Memory and Superelasticity, published online, 2016.

237. Panchenko, E.Y., Y.I. Chumlyakov, N.Y. Surikov, A.I. Tagiltsev, N.G. Vetoshkina, K.S. Osipovich, H. Maier, and H. Sehitoglu, "Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys," Russian Physics Journal, 58, 11,1534-1543, 2016.

238. (W) Ren, G. and H. Sehitoglu, "Interatomic potential for the NiTi alloy and its application, to appear in Computational Materials Science," 123,19_25, 2016.

239. (W) Sehitoglu, H., L. Patriarca, and Y.Wu, "Shape Memory Strains and Temperatures in the Extreme, Articles in Press," Current Opinion in Solid State & Materials Science, 2016.

240. (W) Ojha, A. and H. Sehitoglu, "Transformation Stress Modeling in New Fe-Mn-Al-Ni Shape Memory Alloy," International J. Plasticity,86, 93-111, 2016.

241. (W)(D) Sehitoglu, H., Y. Wu, and L. Patriarca, "Shape memory functionality under multi-cycles in NiTiHf,' Scripta Materialia, 129, 2017, 11-15.

242. (W) Chowdhury, P. and H. Sehitoglu, "A revisit to atomistic rationale for slip in shape memory alloys," Progress in Materials Science, 2017.

243. (W) Alkan, S. and H. Sehitoglu, "Non-Schmid response of Fe3Al: The twin-antitwin slip asymmetry and non-glide shear stress effects," Acta Materialia, 2017.

244. (W) Luccarelli, P.G., G.J. Pataky, H. Sehitoglu, S. Foletti, "Finite element simulation of single crystal and polycrystalline Haynes 230 specimens," International Journal of Solids and Structures, in press, 2017.

245. (W) Chowdhury, P. and H. Sehitoglu, "Deformation physics of shape memory alloys _ Fundamentals at atomistic frontier," Progress in Materials Science, 88, 2017, 49_88 (pdf).

246. (W) Sehitoglu, H., Y. Wu, S. Alkan, and E. Ertekin, "Plastic Deformation of B2-NiTi- Is it Slip or Twinning?" Philosophical Magazine & Philosophical Magazine Letters, http://dx.doi.org/10.1080/09500839.2017.1316019, 2017(pdf).

247. (W) Abuzaid, W. and H. Sehitoglu, "Functional fatigue of Ni 50.3 Ti 25 Hf 24.7_Heterogeneities and evolution of local transformation strains," https://doi.org/10.1016/j.msea.2017.04.097, Materials Science and Engineering: A, 2017.

248. (W) W.Abuzaid, H Sehitoglu, Critical Resolved Shear Stress for Slip and Twin Nucleation in Single Crystalline FeNiCoCrMn High Entropy Alloy, Materials Characterization, 2017

249. (W) S. Alkan, H Sehitoglu, Giant Non-Schmid Effect in NiTi, Extreme Mechanics Letters, 2017

250. (W)(D) H. Sehitoglu, Y. Wu, L. Patriarca, G. Li, A. Ojha, S. Zhang, Y. Chumlyakov, M. Nishida, Superelasticity and Shape Memory Behavior of NiTiHf Alloys, Shape Memory And Superelasticity, 2017

251. (W) H. Sehitoglu , Y. Wu, E. Ertekin, Elastocaloric effects in the extreme, Scripta Materialia, 2017

252. (W) S. Alkan, H. Sehitoglu, Dislocation core effects on slip response of NiTi- a key to understanding shape memory, International J. Plasticity, 2017

253. (W) Y. Wu, E. Ertekin, H. Sehitoglu, Elastocaloric cooling capacity of shape memory alloys _ Role of deformation temperatures, mechanical cycling, stress hysteresis and inhomogeneity of transformation, Acta Materialia (2017), doi: 10.1016/j.actamat.2017.06.012

254. (W) S. Alkan, H. Sehitoglu, Nonuniqueness of the fatigue threshold, I. J. Fatigue, 104 (2017) 309_321

255. (W) Piyas Chowdhury, Demircan Canadinc, Huseyin Sehitoglu, On deformation behavior of Fe-Mn based structural alloys, Materials Science and Engineering R 122 (2017) 1_28

256. (W)(D) Piyas Chowdhury, Huseyin Sehitoglu, Richard Rateick , Damage tolerance of carbon-carbon composites in aerospace application, Carbon, 126, 2018, 382-393

257. (W)(D) P. Chowdhury, H. Sehitoglu, Atomistic Fault Energetics and Critical Stress Prediction for fcc and bcc Twinning: Recent Progress, ASME , J. Engineering Materials and Technology, 2018,

258. (W) S. Alkan, A. Ojha, H. Sehitoglu, Determination of latent hardening response for FeNiCoCrMn for twin-twin interactions, Acta Materialia, 147 (2018) 149-164

259. W. Abuzaid, H. Sehitoglu, Plastic Strain Partitioning in Dual phase Al13CoCrFeNi High Entropy Alloy, Materials Science and Engineering A, 2018(pdf)

260. (W) S. Alkan, Y. Wu, A. Ojha, H. Sehitoglu, Transformation Stress of Shape Memory Alloy CuZnAl: Non-Schmid Behavior, Acta Materialia, 2018, (pdf)

261. (W)(D) Y.Wu, M. Bonisch, S.Alkan, W.Abuzaid, H. Sehitoglu, Experimental Determination of Latent Hardening Coefficients in FeMnNiCoCr, I. J. Plasticity, 2018

262. (W) S. Alkan, A. Ojha, H. Sehitoglu, The Complexity of Non-Schmid Behavior in the CuZnAl Shape Memory Alloy, Journal of the Mechanics and Physics of Solids, 2018

263. (W) H. Sehitoglu, S. Alkan, Recent Progress on Modeling Slip Deformation in Shape Memory Alloys, Shape Memory and Superelasticity, 2018

264. (W) E. Sgambittera, C. Maletta, F. Furgiuele, H. Sehitoglu, Fatigue crack propagation in [012] NiTi single crystal alloy, I. J. Fatigue, 2018

265. (W)(D) M. Bonisch, Y.Wu, H. Sehitoglu, Hardening by Slip-Twin and Twin-twin Interactions in FeMnNiCoCr, Acta Materialia, 153, 391-403, 2018

266. (W)(D) M. B_nisch, Y. Wu & H. Sehitoglu,Twinning-induced strain hardening in dual-phase FeCoCrNiAl0.5 at room and cryogenic temperature, Nature Scientific Reports, (2018) 8:10663, DOI:10.1038/s41598-018-28784-1

267. W. Abuzaid, H. Sehitoglu, Superelasticity and functional fatigue of single crystalline FeNiCoAlTi Iron-based shape memory alloy, Materials and Design, 160, 2018, 642-651

268. (W)(D) S. Alkan, H. Sehitoglu, Plastic Flow Resistance of NiTiCu Shape Memory Alloy-Theory and Experiments, Acta Materialia, Volume 163, 2019, 173-188

g. Invited Lectures (2000-

1. Invited Speaker, International Conference Optical Engineering, Newport Beach, CA, Mar. 8-10, 2000.

2. Invited Speaker, The Metallurgical Society, Nashville, TN, Mar. 13-15, 2000. 3. Invited Speaker, International Conference on Strength of Metals, San Francisco, CA, Aug. 27-

29, 2000. 4. Invited Speaker, ASME Conference, Orlando, FL, Nov. 6-8, 2000. 5. Invited Speaker, The Metallurgical Society, New Orleans, LA, Feb. 11-15, 2001. 6. Keynote Speaker and Conference Closing Speaker, French Metallurgical Society Meeting,

Paris, France, May 31-June 2, 2001. 7. Invited Speaker, International Union of Theoretical and Applied Mechanics, Hong King, June

7-12, 2001. 8. Invited Speaker and Session Chairman, ASME Summer Meeting, San Diego, CA, June 22-27,

2001. 9. Invited Speaker, ASME Conference, Adaptive Materials and Structures, New York, NY, Nov.

11-15, 2001. 10. Invited Speaker, International Conference on Fracture, Hawaii, HI, Dec. 2-7, 2001. 11. Opening Speaker, Conference Invitada, XIXth Spanish National Conference on Fracture of

Materials, Girona, Spain, March 2002. 12. Invited Speaker and Member, International Advisory Committee, CAMP2002 - Conference on

High-Temperature Fatigue, Paderborn, Germany, April 3-4, 2002. 13. Invited Lecturer, NATO ARW on "New Trends in Phase Transformations and Their

Applications to Smart Structures," ENSAM-METZ, April 23-26, 2002. 14. Invited Speaker, Oberwolfach-Meeting Mechanics of Materials, Mathematisches

Forschungsinstitut Oberwolfach, Oberwolfach, Germany, May 5-11, 2002. 15. Invited Speaker, 6th Biennial Conference on Engineering Systems Design and Analysis,

Istanbul, Turkey, July 8-11, 2002. 16. Speaker, EMMC6 Conference on Non Linear Mechanics of Anisotropic Materials, Liege,

Belgium, September 9-12, 2002. 17. Invited Speaker, ASME Meeting on Adaptive Structures and Materials Systems Symposium,

New Orleans, LA, Nov 17-22, 2002. 18. Invited Lecturer, Transportation Research Board Meeting, Washington, DC, Jan. 2003. 19. Invited Lecturer, The International Society for Optical Engineering, Active Materials, San

Diego, CA, March 2-4, 2003. 20. Invited Lecturer, University of Southern California, Los Angeles, CA, April 2003. 21. Member and Invited Speaker, International Advisory Committee, International Scientific

Committee for the 7th European Mechanics of Materials Conference (EMMC7) Adaptive Systems and Materials: Constitutive Materials and Hybrid Structures, Fregus, France, May 18-23, 2003.

22. Co-Chairman and Invited Speaker, Fifth International Conference on Low Cycle Fatigue, LCF5, Berlin, Germany, September 9-11, 2003.

23. Member and Invited Speaker, International Advisory Committee, Seventh International Conference on Biaxial/Multiaxial Fatigue and Fracture, Berlin, Germany, June 28-30, 2004.

24. Member of Scientific Committee and Keynote Speaker, International Conference on High Nitrogen Steels, Ostend, Belgium, Sept. 19-22, 2004.

25. Member of International Scientific Committee, Shape Memory Technologies Conference, Singapore, November 24-26, 2004.

26. Keynote (Invited) Speaker, Euromat 2005 Conference, Shape Memory Materials, Prague, September 5-9, 2005.

27. Invited as University Visiting Professor to Kyoto University, 2005-2006 (declined). 28. Invited as University Reviewer, Escola de Engenharia de Sao Carlos, Da Universidade de Sao

Paulo, Brazil, 2005. (Declined) 29. Advisory Committee, CAMP Conference on High Temperature Fatigue, Paderborn, Germany,

2005. 30. Invited Speaker, Oberwolfach Meeting on Mechanics of Materials, Oberwolfach, Germany,

Jan. 22-28, 2006 (declined).

31. Plenary Speaker, Fatigue 2006, Atlanta, GA, May 14-19, 2006. 32. Keynote Speaker, SMST 2006 Symposium, Asilomer, CA, May 15-17, 2006. 33. Scientific Committee, International Railway Symposium, Istanbul, Turkey, December 13-16,

2006. 34. Scientific Committee, Elasto Plastic Behavior of Materials, Berlin, Germany, 2006. 35. Invited Keynote Lecturer, Member Scientific Organizing Committee, International Conference

on Smart Materials and Adaptive Structures: Mathematical Modeling and Computation, Tangier, Morocco, April 14-16, 2008.

36. Organizer, Experiments on TMF, SEM XI International Congress & Exposition on Experimental and Applied Mechanics, Orlando, FL, June 2-5, 2008.

37. Scientific Committee, 3rd International Conference _Smart Materials, Structures and Systems, _Acireale, Sicily, Italy, June 8-13, 2008.

38. Scientific Committee, IRS 2008 International Railway Symposium, Istanbul, Turkey, 2008. 39. Scientific Committee, SES, Society for Engineering Sciences Meeting, October 2008. 40. Polytechnic de Milano, Milan, Italy, 2009 41. University of Palma, Palma de Majorca, Spain, 2009 42. Polytechnic de Madrid, Ideas, 2009 43. Invited Speaker, Clarkson University, New York, April 2009 44. Invited Speaker, ESOMAT 2009, European Conference on Martensitic Transformations,

September, 2009 45. Invited Keynote Speaker (declined), International Symposium on Superelastic Materials 2010 at

Gyeongsang National University (GNU) on June 1-2, 2010 46. Invited Speaker, Therm0-mechanical Fatigue, University of Calabria, Italy, May, 2010 47. Invited Keynote Speaker (declined), International Symposium on Superelastic Materials 2010,

Gyeongsang National University (GNU), June 1-2, 2010 48. Invited Speaker, TMS Symposium, Physical and Mechanical Metallurgy of Shape Memory

Alloys for Actuator Applications, San Diego, February 27-March 3, 2011 49. Invited Speaker, International Symposium of Plasticity, Micromechanics-based Approaches for

Inelastic Deformation of Solids, _Recent Advances in Modeling of Fatigue and Twinning in Metals,_ Puerto Vallarta, Mexico, January 2011

50. Invited Speaker, TMS Symposium, Physical and Mechanical Metallurgy of Shape Memory Alloys for Actuator Applications, San Diego, February 27-March 3, 2011

51. Invited Speaker, IUTAM, International Union of Theoretical and Applied Mechanics, University of Cachan, Paris, France, July 3-8, 2011

52. Invited Speaker, ICOMAT, International Conference on Martensitic Transformations, Osaka, Japan, 4-9 September 2011

53. Invited Speaker, MS&T Meeting, Columbus, Ohio, October 16-20, 2011 54. Invited Speaker, European Mechanics Conference, Austria, July 9-12, 2012 55. Advisory Committee, Aalto University, Helsinki, Finland, February 22-25, 2012 56. Invited Speaker, Crack Paths Conference,Gaeta, Italy, September 19-21, 2012 57. Invited Lecturer, Ploytechnico de Milano, Micromechanics, June 1-10, 2012 58. Invited Speaker, Mathematische Forschungsinstitut Oberwolfach, Mathematics Institute,

Germany, March, 18-24, 2012 59. Plenary Speaker, 7th International Conference "Materials Structure & Micromechanics of

Fracture (MSMF-7)," Brno, Czech Republic, July 1-3, 2013 60. International Advisory Board, Low Cycle Fatigue Conference, Aachen, Germany, September 9-

13, 2013 61. International Advisory Board, Intermetallics, Banz, Germany, September 20-October 4, 2013 62. Advisory Committee, Faculty Recruiting, Aalto University, Helsinki, Finland, 2012-date 63. Invited Lecturer, Polytechnico de Milano, Micromechanics, June 1-10, 2013 64. Invited Lecturer, University of Hannover, Germany, September 13, 2013 65. Plenary Lecturer, Twentieth European Group on Fracture (ECF20), June 30-July 4, Trondheim,

Norway. 66. Plenary Lecturer, Symposium on Structural Durability in Darmstadt (SoSDiD), May 14-15,

2014 67. Invited Lecturer, University of Calabria, Italy, May 27, 2015

68. Honorary Speaker, PLASTICITY 2016, Sheraton Kona Resort & Spa at Keauhou Bay, Big Island, Hawaii, January 3-9, 2016 Yanyao Jiang, Rick Neu and Ibrahim Kamran (USA), "Multi-faceted Research in Materials and Mechanics," in honor of Huseyin Sehitoglu.

69. Invited Lecturer, Drexel University, April, 2016 70. International Advisory Board, Low Cycle Fatigue Conference, Dresden, Germany, June, 2017 71. Advisory Board, ICOMAT (International Conference on Martensitic Transformations),

International Conference on Martensitic Transformations, Chicago, USA, 2017 72. International Advisory Board, 16th International Conference on New Trends in Fatigue and

Fracture (NT2F16), Dubrovnik, Croatia, 24 - 27 May 2016 73. Invited Speaker, Bogazici University, June 2016 74. Keynote Speaker, IUTAM Meeting, Galway, Ireland, August 2017 75. Keynote Speaker, International Plasticity Meeting, Puerto Vallarta, Mexico, January 2017 76. Organizer, International Conference Fracture, Rhodes, Greece, 2017 77. Invited Lecturer, Virginia Tech., Blacksburg, Virginia, 2017 78. Keynote Speaker, Shape Memory Symposium, ASME Meeting Tampa, 2017 79. Invited Speaker, Aalto University, Mechanical Engineering, 2018 80. Invited Speaker, ESOMAT Meeting, France, August, 2018 81. Keynote Speaker, Italian Stress Analysis Meeting, AIAS, 2018 82. Invited Speaker, Mechanical Engineering, Johns Hopkins University, 2018

h. Other Publications (patents, bulletins or reports, magazine articles, etc.)

1. Chakrabarty, J., "Theory of Plasticity," McGraw Hill, 1987.

1. Patents

2. Bulletins

1. Boismier, D., "Thermo-mechanical Fatigue Damage Mechanisms and Life Prediction for Mar-M247 Nickel Based Superalloy," 1988.

2. Kuhlman, C., "Simulation of Quenching in Railroad Car Wheels," 1988. 3. Sun, W., "Mechanisms of Crack Closure-Creep and Constraint Effects," 1989. 4. Mikrut, D., "The Effect of Time Dependent Deformation on Quench Draw Processes," 1989.

3. Magazine Articles

4. Reports

1. Sehitoglu, H., "Fatigue of Low Carbon Steels as Influenced by Strain Aging," Fracture Control Program Report #40, 1981.

2. Deves, T., P. Kurath, H. Sehitoglu, and J. Morrow, "The Effect of Selected Subcycles in Block Loading Fatigue Histories," Fracture Control Program Report #42, 1982.

3. Slavik, D., "An Experimentally Based Unified Model for Isothermal and Thermo-mechanical Loading," Materials Engineering Mechanical Behavior Report #134, UILU-ENG-86-3611, 1986.

4. Karasek, M., "An Investigation into Isothermal and Thermo-mechanical Fatigue Damage at Elevated Temperatures," Materials Engineering Mechanical Behavior Report #132, UILU-ENG-86-3609, 1986.

5. Lalor, P., "Mechanics Aspects of Crack Closure," Materials Engineering Mechanical Behavior Report #133, UILU-ENG-86-3610, 1986.

6. Sehitoglu, H. and D. Boismier, "Thermo-mechanical Fatigue of Superalloys," Report to GM Allison Gas Turbine, 1986.


8. Neu, R., "A Micro-mechanistic Life Prediction Model Suitable for Isothermal and Thermo-mechanical Fatigue," Materials Engineering Mechanical Behavior Report #140, UILU-ENG-88-3601, 1987.

9. Sehitoglu, H. and W. Sun, "Crack Growth and Crack Closure at High Temperatures," Report submitted to General Electric, 1988.


11. McClung, R. C., "Fatigue Crack Closure and Crack Growth Outside the Small Scale Yielding Regime," Materials Engineering Mechanical Behavior Report #139, UILU-ENG-87-3605, 1989.

12. Sehitoglu, H. and M. Karayaka, "Thermo-mechanical Fatigue of Metal Matrix Composites," Report submitted to Ford Motor Co., 1989.

13. Sehitoglu, H. and R. Neu, "Effect of Retained Austenite on the Deformation and Fatigue Behavior of Carburized Steels," Report to Brenco/AAR, 1989.

14. Sehitoglu, H. and R. Neu, "Stress Induced and Thermal Induced Transformation of Retained Austenite," Report to Brenco/AAR.


16. Sehitoglu, H. and Y. Kadioglu, "Thermo-mechanical Fatigue of Mar M240," Report to GM, 1989.

17. Sehitoglu, H. and M. Karayaka, "Thermo-mechanical Cyclic Deformation of Metal Matrix Composites - Average Internal Stress-Strain Fields," Report submitted to Ford Motor Co., 1990.

18. Sehitoglu, H., "Fatigue of Low Carbon Steels as Influenced by Strain Aging," Fracture Control Program Report #40, 1981.

3. Areas of Research (brief description, key words are adequate)

1. Shape Memory Materials and Phase Transformations 2. Thermo-mechanical Behavior of Metals 3. Fatigue Crack Closure 4. Fatigue Crack Nucleation Studies

4. Graduate Thesis Research Advising (list co-advisor, if any)

a. M.S. Thesis Students (name and year granted or anticipated)

Student Name Year Graduated

Thesis Title Placement

D. C. Slavik 1986 An Experimentally Based Unified Model for Isothermal and Thermo-mechanical Loading GE

M. L. Karasek 1986 An Investigation Into Isothermal and Thermo-mechanical Fatigue Damage at Elevated Temperatures

Snapper Tools

P. L. Lalor 1986 Mechanics Aspects of Crack Closure Hibbitt, Karlsson-Sorenson

R. W. Neu 1988 A Micro-Mechanistic Life Prediction Model Suitable for Isothermal and Thermo-Mechanical Fatigue

Professor, Georgia Institute of Technology

D. A. Boismier 1988 Thermo-Mechanical Fatigue Mechanisms and Life Prediction for MAR-M247 Nickel-Based Superalloy 3M Corporation



C. J. Kuhlman 1988 Simulation of the Quenching of Railroad Car Wheels

Southwest Research Institute

W. Sun 1989 Fatigue Crack Closure Study of Creep and Constraint Effects

Doctoral Candidate, UIUC

D. L. Mikrut 1990 Elevated Temperature Time Dependent Behavior of 0.7% Carbon Steels Caterpillar, Inc.

J. C. Jur 1992 Compression Deformation and Failure Mechanisms of Unidirectional Carbon Fiber Reinforced Plastics

Engine Design/Test Co

S. G. Murphy 1993 Simulations of Cone Bore Growth in Railroad Journal Roller Bearings Woodward Governor

W. W. Van Arsdell 1993 The Effect of Particle Size on the Thermomechanical

Fatigue of Metal Matrix Composites Failure Associates

J. K. Jacobus 1995

An Experimental Investigation of the Effect of Stress State on the Stress-Induced Martensitic Transformation in Cu-Zn-Al and Ni-Ti Shape Memory Alloys

McKenzie Associates

T. B-Y. Tai 1996 Fatigue Experiments and Modulus Degradation Modeling on Sheet Molding Compound Watkins-Johnson Co.

K. A. Gall 1996 F.E.M. Study of Fatigue Crack Growth and Closure under Double Slip


A. M. Garcia 1996 A Model for Roughness Induced Fatigue Crack Closure


T. J. Smith 1998 Thermo-Mechanical Modeling and Microstructural Evolution of a Cast Aluminum Alloy

Senior Researcher, Exxon-Mobile

J. H. Jones (P. Kurath, co-advisor)

1998 Hughes Space and Communication

B. E. Alaca 1999 Mechanical Properties and Microstructure of the Aromatic Polyimide PMDA-ODA


R. D. Anderson 2000 The Effect of Aging Treatments on Shape Memory and Pseudoelastic Behavior of Nickel-Titanium Single Crystals

Lockheed Martin

A. D. Viswanath 2000 Thermo-Mechanical Modeling and Experimental Results for Gray Cast Iron ---

D. Canadinc 2001 The Effect of Nitrogen and Aluminum on the Deformation Behavior of Hadfield Manganese Steel Single Crystals


R. Hamilton 2003 The Effect of Heat Treatment and Ni Content on the Shape Memory Behavior of NiTi Single Crystals


C. Efstathiou 2003 Experimental Investigation of Shape Memory Behavior in Fe-29%, Ni-18% Co-4% Ti(wt.%)


S. Kibey 2003 Crack Closure in sliding Cracks Doctoral Candidate, UIUC



C. Bartsch 2003 Materials Behaviour under Quenching Conditions Caterpillar K. Verzal 2005 Contact, Sliding and Wear 3 M J. Callaway 2006 Magnetoshape Memory Power Generation

T. Ezaz 2006 Cell Divisions Stresses Doctoral Candidate, UIUC

M. Maheshwari 2006 Corner Stresses under Contact Motorola J. Oyelakin 2009 Thin Film Fracture Shell, Nigeria G. Pataky 2011 Fatigue of High Temperature Alloys U of I P. Chowdhury 2011 Irreversibilities in Fatigue IBM , Yorktown Avinesh Ohja 2013 Modeling Twinning in FeCr Alloys U of I

b. Ph.D. Thesis Students (name and year granted or anticipated)

Student Name Year Graduated Thesis Title Placement

R. C. McClung 1988 Fatigue Crack Closure and Crack Growth Outside the Small Scale Yielding Regime

Manager, Southwest Research Institute

R. W. Neu 1991 An Investigation into the Mechanisms of Cone Bore Growth in Railroad Bearings


M. Karayaka 1992 An Investigation into Thermomechanical Fatigue of Metal Matrix Composites Chevron, Houston

Y. Kadioglu 1992 Modelling of Thermo-mechanical Fatigue Behavior in Superalloys

General Electric, Schenectady

W. Sun 1992 Finite Element Simulations of Fatigue Crack Growth and Closure

CTO SWAT, Computer Associates

Y. Jiang 1993 Cyclic Plasticity with an Emphasis on Ratchetting

Professor, University of Nevada, Reno

K. A. Gall 1998

The Effect of Stress Staate and Precipitation on Stress-Induced Martensitic Transformations in Polycrystalline and Single Crystal Shape Memory Alloys: Experiments and Micro-Mechanical Modeling

Professor and Department Head, Duke U. , NC

M. A. Balzer 1998 Mechanical Behavior of Metals Under Triaxial Stress: Apparatus and Experiments

Jet Propulsion Laboratory, Pasadena, CA

I. Karaman 2000 The Competing Effects of Slip and Twinning on the Deformation of Hadfield Manganese Steel Single and Polycrystals

Professor, Texas A&M University, College Park

T. J. Foglesong 2001 Polycrystal Modeling of Precipitate Effects on the Mechanical Behavior of an Aluminum-Copper Alloy

Exxon Mobile, Houston


B. E. Alaca 2003 Fabrication of Nanowire Networks Through Stress-Guided Self-Assembly

Associate Professor, KOC University, Turkey

D. Canadinc 2005 Modeling of Stress-Strain Response of Hadfield Steels

Associate Professor, KOC University

S. Kibey 2007 Mesoscale Models: Linking Atomistics and Continuum

Research Scientist, Exxon Mobile, Houston, TX

R. Hamilton 2008 Hysteresis in Phase Transformations Associate Professor, Penn State University

C. Efstathiou 2008 Experiments on Magnetic Shape Memory Materials

Post Doc, Cornell University

M. Sangid 2010 Fatigue Modeling of Udimet 720 Assistant Professor, Purdue University

T. Ezaz 2011 Slip-Twin Interactions and Shape Memory Intel, Portland J. Carroll (Joint with J. Lambros) 2011 Digital Image Correlation in Fatigue Crack

Growth Sandia National Labs.

W. Abuzaid 2012 Fatigue of Superalloys- Slip Transfer Modeling and Experiments

Assistant Prof., Shariah University, United Arab Emirates

Jifeng Wang 2014 Twinning in Shape Memory Alloys General Motors Luca Patriarcha (jointly with Prof. Beretta Poly. Milano)

2013 Twinning and Slip in FeCr Assistant Professor, Poli. Milano

Emanuele Sgambitera (jointly with Prof. Furgiele, Univ. Calabria)

2014 Fatigue Crack Growth in Shape Memory Alloys

Assistant Professor, Univ. Calabria

Garrett Pataky 2016 Fatigue-Creep of Haynes 230 Assistant Prof., Clemson U.

Piyas Chowdhury 2016 Modeling of Nano-materials in Fatigue IBM, Yorktown Silvio Rabbolini ((jointly with Prof. Beretta Poly. Milano))

2015 Fatigue Crack Growth

Pietro Luccarelli ((jointly with Prof. Beretta Poly. Milano))

2017 Local stress in Grains

Yan Wu 2019(anticipated) High Temperature Shape Memory Alloys


Sertan Alkan 2018 Fatigue of Nano-materials Assistant Professor, Bogazici University

Avinesh Ohja 2017 Modeling of Twinning in Metals Ford Motor Company

Sidharth Ravi 2021(anticipated) Fatigue-creep Deformation of 709 Steels Sameer Mohammed 2020(anticipated) Graphitization of Carbon Jad Yacoub 2021(anticipated) Fatigue of Shape Memory Alloys Orcun Celebi 2021(anticipated) Fatigue of Layered Materials

5. Editorships of Journals or Other Learned Publications (list year)

1. Editor in Chief, (Founding), ASM/SMST Journal of Shape Memory and Superelasticity, to be launched 2015- (this will be the foremost journal in the area of reversible phase transformations in metals).

2. Editorial Board, Materials at High Temperatures, 2014- 3. Editorial Board, International Journal of Fatigue, 2008-date 4. Editor, ASME Journal of Engineering Materials and Technology, 2002-2008 5. Editorial Board, Engineering Fracture Mechanics, 1995-date 6. Associate Editor, ASME Journal of Engineering Materials and Technology, 1995-00 7. Guest Editor, Special Issue of Journal of Engineering Materials Technology on Shape Memory

Alloys, Oct. 1998 8. Editorial Board, International Materials Reviews, 2017

6. Post-doctoral Associates and Visiting Scientists (>3 months stay in the past three years) (list name, year(s), country of origin, permanent employer)

Name Title (percent time) Country of Origin

Permanent Employer Years

S. H. Song Visiting Scholar (100%) Korea 1998-99 Y. Chumlyakov Visiting Scholar (100%) Russia Tomsk State University 1998-99

I. Kireeva Visiting Scholar (100%) Russia Tomsk State University 1998-99

C. Engler Postdoctoral Research Associate (100%) Brazil Ford Motor Company 1999-00

X. Zhang Postdoctoral Research Associate (100%) China Hong Kong University 1999-00

J. H. Jun Postdoctoral Research Associate (100%) Korea Yonsei University 2000-01

I. Karaman Postdoctoral Research Associate (100%)

Turkey Texas A&M University 2000-01

T. Kotil Visiting Scholar (100%) Turkey CEO Turkish Airlines 2001-02 H. Woo Visiting Scholar (100%) Korea Dongguk University 2002-03 S. Foletti Visiting Scholar (100%) Italy Poly Milano 2003 Y. Chumlyakov Visiting Scholar (100%) Russia Tomsk State University 2003-

2004



S. As Visiting Scholar (100%) Norway Norwegian University of Science and Technology 2005

J. H. Kim Visiting Scholar Korea Seoul National University 2005-06 K. Aslantas Visiting Scholar Turkey Afyon University, Turkey 2005-06

D. Canadinc Visiting Scholar Turkey KO_ University, Turkey 2007-2008

Y. Liu Visiting Scholar Singapore Nanyang University 2007 R. Hamilton Assistant Professor USA Penn State 2008 C. Efstathiou Post Doc USA UIUC 2008 S. Dilibal Visiting Scholar Turkey Nato General Command 2009 G. Anlas Professor Turkey Bogazici University 2010

E. Guler Visiting Scholar (Assoc. Professor) Turkey Corum University 2010-

2011

Buyang Lim Visiting Scholar (Professor) Korea Sungkyunkwan University 2010-2011

L. Patriarca Visiting Scholar Italy Politechnico di Milano 2010-2011

M. Sangid Post Doc USA Purdue University 2010-2011

A. Oral Post Doc USA Bogazici University, Turkey 2011-2012

E. Sgiamberetta Visiting Scholar Italy University of Calabria 2012-

2013 G. Ren Visiting Scholar China 2014

L. Patriarcha Post Doc Italy Politechnico di Milano 2013-2015

P. Lucarelli Visiting Scholar Italy Politechnico di Milano 2014-2015

Xiao Ma Visiting Scholar China 2016-2017

Zhanlong Zhao Visiting Scholar China 2016-2017

Q. Sun Visiting Scholar China 2016-2017

P. Chowdhury Post Doc Bangladesh University of Illinois 2016-2017

Matthias Bonisch Post Doc Austria University of Dresden, Germany

2017-2018

Florian Brenne Post Doc Germany 2018-2020

S. Alkan Post Doc Turkey Bogazici University, Turkey 2018-2018



D. Canadinc Vist Assoc Prof Turkey Koc University 2018-2019

7. Other Scholarly Activities in the past five years (conferences organized or chaired, unpublished presentations, etc.)

a. Conferences Organized or Chaired

1. Session Organizer, SMST2006 Symposium, Asilomar, CA, 2006 2. International Advisory Board Member, 3rd International Conferences on _Smart Materials,

Structures and Systems,_ Acireasle, Sicily, Italy, June 8-13, 2008 3. Organization Committee, Shape Memory Workshop, Koc University, Istanbul Turkey, 2010 4. Organizing Committee and Co-Chair, Shape Memory Conference, Istanbul, Turkey, June 24-

28, 2010 5. International Advisory Committee, The Mechanical Behavior of Materials (ICM11)

Conference, Como Lake, Italy, 2011. 6. Member, Scientific Committee, 11th International Conference on Mechanical Behaviour of

Materials, Milano, Italy, June 5-9, 2011 7. Member, Scientific Advisory Committee, Intermetallics, Germany, 2013 8. Member, Scientific Advisory Committee, Low Cycle Fatigue Conference, Germany, 2013

b. Unpublished Presentations

1. International Conference Plasticity, Alaska, 1991 2. TMS, Paul Paris Symposium, Indianapolis, 1997 3. Department of Theoretical and Applied Mechanics, University of Illinois at Urbana-

Champaign, 1998 4. Drexel University, 1998

c. Other Scholarly Activities

C. Service

1. Professional Societies (list membership; office held, with dates; major committees or boards)

1. Fellow, The American Society of Mechanical Engineers 2. Fellow, American Society for Metals International 3. Founding Editor, Shape Memory and Superelasticity Journal (official journal of ASM and SMST),

2014- 4. Editorial Board, Materials at High Temperatures, 2013- 5. Editor, Journal of Engineering Materials and Technology, ASME, 2002-2008 6. Editorial Board, Journal of Engineering Fracture Mechanics, 1996-date 7. Member, ASTM E08, Fatigue and Fracture 8. Chair, Thermo-mechanical Fatigue Committee, ASTM, 1985-1994 9. Associate Editor, Journal of Engineering for Materials and Technology, ASME, 1996-00 10. Member, Materials and Fabrications Committee, Pressure Vessel Piping Division, ASME 11. ASTM Fatigue Committee Chair, E8-01, Research, 1990-1994 (launched the standardization

procedures for experiments in Thermo-mechanical Fatigue) 12. Member, The Minerals, Metals & Materials Society (TMS) 13. Member, American Society for Engineering Education

2. University (department, college and campus committees, administration, etc. for past five years)

a. Department

1. Chair, AMTEL (Advanced Materials Testing and Evaluation Laboratory) Advisory Committee, 1999-2004 Professor Sehitoglu is the Chair of the Advisory Committee that oversees AMTEL. The AMTEL (Advanced Materials Testing and Evaluation Laboratory) is a state of the art mechanical testing facility which occupies 6000 sq ft. and is housed in the College of Engineering. This committee has representation from all major Departments within the College of Engineering. AMTEL employs one Senior Research Engineer (also Adjunct Assoc. Professor) and an electronics technician. The Committee is responsible for establishing the policies for operation of the laboratory. The capabilities in AMTEL include 25 test machines with high temperature, tension-torsion, and internal-external pressure loading. The machine capacities vary from 5kN to 400kN for samples ranging from microns to centimeters. This is the largest mechanical testing facility in the United States in academia. Metallic, polymeric and ceramic samples can be tested to study the fatigue, creep and fracture behavior of materials and components. AMTEL is structured as a user-facility, providing equipment and expertise to facilitate the research, education and outreach missions of the University. User fees generated are utilized primarily for maintenance and upgrading of existing equipment. AMTEL enables faculty and students to conduct cutting edge research using standard methods, as well as develop new methods to suit changing technologies.

2. Chair, Micro-miniature Systems (MMS) Laboratory Oversight Committee, 2002-2004 3. Professor Sehitoglu serves as the Chair of this microfabrication facility within the Mechanical

and Industrial Engineering Department. The Micro-Miniature Systems (MMS) Laboratory is a 1600 sq. ft laboratory designed for research work in the design and fabrication of small-scale mechanical systems. The lab supports research in the general area of micro-electro-mechanical systems (MEMS). The primary focus is on devices employing mechanisms of the micron-to-millimeter scale, and the integration of silicon-based structures with metals, ceramics, and polymers. The MMS has class 1000 and 100 clean space for microfabrication and inspection, and has preparation space for lapping, dicing, ultrasonic milling and other particle emitting operations.

4. Interim Head of Mechanical and Industrial Engineering Department, 2004-2005 5. Shortly after his appointment as Interim Head in mid-September 2004, Professor Sehitoglu

initiated an aggressive recruiting plan to hire both senior and junior faculty from other institutions. A Rapid Strategic Planning Committee for Recruiting was formed and its report laid the foundation for the recruiting plan. Professor Sehitoglu sought faculty input to the recruiting process through the faculty retreat and via discussions with the faculty. As a result, an unprecedented number of faculty candidates are being interviewed this year.

6. Department Head of Mechanical and Industrial Engineering Department, 2004-2005 7. Strategic Planning Committee, 1999-00, Chair, 1994-95 8. Professor Sehitoglu chaired the first Strategic Planning Committee of the Department in 1995.

Based on the findings of this Committee, the Department hired faculty in several emerging areas including MEMS, Bioengineering, and Nanosciences.

9. Faculty Promotions Committee, 1999-date 10. Faculty Recruiting Committee, 1998-date; Chair, 2000-01 11. Alumni Affairs and Development, 2004-date 12. Chair, Named Appointment Committee, 2010-date 13. Department Head, Mechanical Science and Engineering, 2005-2009 14. Chair, Promotions Committee, 2012-date

b. College

1. Chair, CEE Department Head Search Committee, 2014 2. Chair, MNTL (Micro-Nano Technology Laboratory) Director Search Committee, 2007(led to

the hiring of Professor Rashid Bashir as Director,2007) 3. Member, Advisory Committee for Engineering Mechanics and Mechanical Sciences, 2005-

2006

4. Director, Fracture Control Program, College of Engineering, University of Illinois at Urbana-Champaign, 1989-date

5. The Fracture Control Program, founded in 1971, is an education -research program focused on fatigue of materials. Professor Sehitoglu has served as the Director of this program since 1989. Through Short Courses, Research Reports and Advisory Committee meetings it addresses both basic and advanced topics including multiaxial fatigue, weld fatigue and thermo-mechanical fatigue. In the last academic year, 150 engineers, designers and scientists have attended the Basic and Advanced Courses offered by the program. The Advisory Committee presentations and the both courses can be downloaded from http://www.mie.uiuc.edu/content/asp/research/research_centers/fracture_control_program.asp The current sponsors are Deere & Co., Caterpillar, Honeywell, ArvinMeritor, International Trucking and Engine Co.

6. Member, College Promotion Committee, 2006-2007, 2007-2008 7. Member, Search Committee, CoE Associate Dean for Administrative Affairs, 2006 8. Chair, MNTL Director Search Committee, 2006-2007, This committee was instrumental in

hiring of Professor Rashid bashir. 9. Member Search Com., AMTEL Reserch Scientist, College of Engineering, 2016 10. Chair, College Promotion Com., 2016-2017

c. Campus

1. Chair, AMTEL Oversight Committee, 1998-2004 2. Chair, MMS Transition Committee, 2000-2004 3. Beckman Institute Coordinating Committee, representing the Department of Mechanical and

Industrial Engineering, 2004-date 4. Administrative Committee, College of Engineering, 2004-date

3. Federal and State (government commissions or panels, community, industrial extension, etc.)

1. Director, Mechanics and Materials Program, National Science Foundation, 1991-1993 (launched the Institute of Mechanics and Materials)

2. NSF Panel, Washington D. C., 2007-2014 (approx. one panel service/year) 3. Advisory Committee, Mechanical Engineering, Ohio State University, Columbus, Ohio, 2010 4. Chair, School of Engineering, Advisory Committee, Aalto University, Helsinki, Finland, 2012-

date

4. Other Outside Service

1. Scientific Committee Member, International Railway Symposium, Turkey, December 13-15, 2006 2. Review Panelist, Department of Mechanical Engineering, Ohio State University, May 7-9, 2007 3. Reviewer for: 4. Acta Materialia 5. Journal of Applied Mechanics 6. Journal of Engineering Materials and Technology 7. Journal of Pressure Vessel and Piping Technology 8. Journal of Engine Gas Turbines and Power 9. ASTM, Standard Technical Publications (E09, E24) 10. Journal of Testing and Evaluation 11. Fatigue and Fracture of Engineering Materials and Structures 12. Metallurgical Transactions 13. Materials Science and Engineering 14. Engineering Fracture Mechanics 15. Journal of Materials for Civil Engineering 16. National Science Foundation (proposals) 17. National Center for Supercomputer Applications 18. Air Force Office of Scientific Research

19. Scripta Materialia 20. High Temperature Materials Laboratory* 21. *Established the High Temperature Materials Laboratory in Mechanical Engineering Department.

This is a unique facility with computer controlled test machines for strain, load, temperature control. A high pressure intensifier is purchased to study material behavior at high pressures.

22. Director, Fracture Control Program** 23. **This is a consortium of five ground vehicle companies. The main emphasis in the program is

fatigue of metals.

D. Improvement Activities (list any specific programs in which you have participated it improve teaching and professional competence)

1. Invited Lecturer, College Committee to Improve Teaching Effectiveness, 2005-2009

E. Professional Highlights

1. One of the major contributions of Prof. Sehitoglu is that he produced PhD students who became faculty members and have taught failure of materials to a generation of students at their respective institutions. His former PhD students in academia include R. Neu (Georgia Institute of Technology), K. Gall (Georgia Institute of Technology), I. Karaman (Texas A&M University), Y. Jiang (University of Nevada, Reno), E. Alaca (Koc University, Istanbul, Turkey), D. Canadinc (Koc University, Istanbul, Turkey), R. Hamilton (Penn State University) and M. Sangid (Purdue University). Currently, he is supervising 6 graduate students, 1 post-doc and 1 international visitor. In addition, he has provided mentorship to young faculty, particularly to Professors Tom Mackin and Taher Saif in his own department. Professor Sehitoglu served as Interim Head of Mechanical Science and Engineering Department during 2004-2005 and was selected as Head of the Department in July 2005. The Department name change to ‘Mechanical Science and Engineering’ and merger with Theoretical Applied Mechanics Department became effective August 2006. He was instrumental in recruiting over seventeen new faculty in emerging areas of cellular biomechanics, nano-mechanics, dynamics, and fluids over the last five years. The new hires invigorated the MechSE programs with new perspectives and areas of expertise. Professor Sehitoglu, building upon the longstanding strengths of programs in mechanical engineering and in mechanics, led the new MechSE (Mechanical Science and Engineering) Department at Illinois to a bold, new approach to research. He has created an environment that is conducive to integrating biology, chemistry, applied mathematics and applied physics with mechanical engineering and engineering mechanics disciplines. The result has been leading-edge research that serves some of society’s greatest needs, in the areas of energy; disease detection; for cost-effective and non-polluting modes of transportation; for manufacturing solutions that will facilitate the transition of nanoscale discoveries from the laboratory to the public and more. Overall, the result has been to position the department for leadership in a rapidly changing world. He has also influenced the practicing materials and mechanical engineers as Director of the University of Illinois Fracture Control Program (http://fcp.mechse.illinois.edu/), a consortium of ground vehicle companies with a research emphasis on the fatigue of metals. He has been the lead instructor at nearly 40 well-attended basic and advanced short courses on fatigue and fracture that draw participants from industrial and academic settings around the world. In each of these courses the attendance ranged from 60 to 100 participants. Professor Sehitoglu served as Editor-in-Chief of the ASME Journal of Engineering Materials and Technology. He is also on the editorial board of Journal of Engineering Fracture Mechanics and the International Journal of Fatigue, and has served in the Scientific Organization Committee of numerous international meetings. From 1991-1993, he was the director of the Mechanics and Materials program within the National Science Foundation, where he played a key role in foundation-wide initiatives in materials synthesis and processing and advanced materials, and in the establishment of the Institute for Mechanics and Materials, an NSF funded Institute. He served as co-chairman of the 2003 Low-Cycle Fatigue and Elastoplastic Behavior of Materials Conference, the Shape Memory Conference in Istanbul, Turkey in 2009 and several Thermo-mechanical Fatigue of Materials symposia. He also serves the profession as a reviewer for several leading journals and a variety of federal granting agencies.

2. Professor Sehitoglu is known for his work in mechanics of materials, has studied several areas of importance, such as mechanics of fatigue and materials science of deformation, and was also instrumental in launching several new initiatives in his department as Department Head. The underlying philosophy in his studies has been to emphasize a stronger connection between continuum approaches and physical mechanisms of failure in engineering materials and structures. For example, he has focused attention on transforming materials with a combination of most advanced tools at different length scales. These tools include single crystal experiments with extensive digital image correlation on one hand and the use of electronic structure calculations of energies for twinning and phase transformation on the other. It would be most fitting to make a presentation of the advanced (experiments and simulation) tools that will highlight the intellectual vigor in mechanical engineering and mechanical science. Professor Sehitoglu is uniquely qualified to make such a presentation because he has made contributions on both the experimental and modeling fronts. Professor Sehitoglu is the author of more than 268 journal articles in the areas of thermo-mechanical fatigue, thermo-elastic phase transformations, and modeling of plasticity in metals. From his work dating to the mid-1980s on fatigue at high temperatures, Professor Huseyin Sehitoglu has made many important scientific contributions in the area of shape memory and thermo-mechanical fatigue, and contributed to the advancement of knowledge in fatigue of metals in general, and specifically the understanding of twinning and slip in metals through materials science and mechanics studies.

3. Profesor Sehitoglu made several significant contributions to life prediction of high temperature components studying steels and nickel based superalloys in the 1980 and 1990s. He continued to work in the 1990s on Al alloys, and more recently (2005-) developed an important model for fatigue crack initiation in nickel based superalloys. The field of thermo-mechanical fatigue involves the response of materials under cyclic mechanical and thermal loads where the deformation and damage mechanisms can be synergistically coupled. Because of the complexity required in experiments and modeling and the coupled mechanisms few researchers made sustained contributions in this field. He developed a reliable method for predicting life that successfully interpreted and synthesized experimental work on creep, plasticity and high temperature corrosion. These works were published in a two part paper published in Materials and Metallurgical Transactions with his graduate student Richard Neu (currently Professor at Georgia Tech.). These papers are entitled “Thermo-mechanical fatigue, Oxidation, Creep, Part I: Experiments & Part II: Life Predictions”. By systematically conducting experiments in helium and air atmospheres , in-phase versus out-of-phase loading he was able to express the contribution of oxidation damage and creep damage to reduction in fatigue lives. The primary damage mechanisms under oxidation, creep, and fatigue were incorporated into a comprehensive life model in a series of papers. His research developed stress-strain relations that incorporated the changes in microstructure of the material. Previous treatments separated creep and plasticity components of strain, he devised experiments to establish the flow rule and hardening and recovery terms in unified constitutive equations. During the late 1980s and early 1990s he served as the chairman of the Research and Education subcommittee within ASTM (American Society of Testing Materials) that focused on thermo-mechanical fatigue and new advances in fatigue, he was Associate Editor of J. Pressure Vessel and Piping. He was a keynote speaker in a NASA (1986) Workshop on Thermo-mechanical fatigue and in NATO Advanced Study Conferences (1995) in this area, edited two books and authored a chapter in the ASM Handbook, Vol.19, on the topic of Thermo-mechanical Fatigue (1996). This chapter is the definitive piece of work on thermo-mechanical fatigue. He was the symposium chairman for the ASTM Conference on Thermo-mechanical Fatigue in 1991 and co-chair in 1998. He was asked to be the closing speaker at the European Joint Research Center Conference on Thermo-mechanical Fatigue held in Petten, Holland in 1995 and in 2001 in Paris, France. In 2003, he was the US chairman of the Low Cycle Fatigue and Elastoplastic Behavior of Materials held in Berlin, Germany and was a member of the Scientific Committee for CAMPS in 2002. The experimental techniques he developed are now adapted within ASTM Thermo-mechanical Fatigue testing standards. He clarified the procedures for out-of-phase and in-phase thermo-mechanical loading and experiments to simulate constraint that was developed

originally in his PhD thesis in 1983 under the direction of late Professor JoDean Morrow. The model for thermo-mechanical fatigue Professor Sehitoglu developed is utilized in the internal software for life calculations in Ford Motor Co. for analyzing thermo-mechanical fatigue of pistons and cylinder heads. His thermo-mechanical fatigue experimental techniques were utilized by Ford in their internal work and they have written a finite element code based on the stress-strain/life model developed in Professor Sehitoglu’s work. His models have been utilized by commercial software firms, such as nCode (http://www.ncode.com/) to develop a thermo-mechanical fatigue module and is incorporated in the e-fatigue web-based software (https://www.efatigue.com/fatiguecalc.html ). Professor Sehitoglu’s work combined basic mechanics and microstructures enabled him to develop models of the thermomechanical deformation and fatigue processes that predict evolution and failure in high-temperature steels and Ni-base superalloys. He received the best paper presentation award from ASTM (American Society of Testing Materials) for a paper he authored in the area of thermo-mechanical fatigue. Because of his contributions to fatigue he was the plenary speaker at Fatigue 2006 in Atlanta, and gave the Fatigue Lecture of ASTM in Vancouver, Canada, May 2009. More recently, Professor Sehitoglu and his students, with support from Rolls-Royce Corporation and the National Science Foundation, has been modeling the energy of a persistent slip band structure and its stability with respect to dislocation motion as a failure criterion for fatigue crack initiation. The concept of an energy balance and stability of a dislocation structure within a material is not new; it has a long standing historical basis. More importantly this approach allows utilizes atomistic simulations for different grain boundary types. Hence, the atomic simulations provide important insights into the energy barriers and physics of the grain boundaries, which are crucial in explaining not only the lifetimes but their variability with the microstructure. Based on the model Prof. Sehitoglu and his students published several papers, which unequivocally predicts the variation in fatigue lives based on the input data. The work has been recently presented in TMS (Seattle and San Diego) with significant praise. Several engine companies have been interested in the results, and invited them to make presentations on the model. These were utilized in constructing an advanced fatigue model for the Air Force Midwest Structural Sciences Center at the University of Illinois.

4. Professor Sehitoglu established the High Temperature Materials Laboratory in the original Department of Mechanical and Industrial Engineering. Professor Sehitoglu developed a unique facility with computer controlled test machines for strain, load, environmental (vacuum) and temperature control. He designed a high pressure intensifier to study material behavior at high pressures. In recent years, Professor Sehitoglu expanded the activities to test miniature pumps, thin films and studies using digital image correlation. Some of these capabilities are also outlined in the research articles.

5. Professor Sehitoglu served as Director of the Mechanics and Materials Program at the National Science Foundation during 1991-1993. He (with J. Sackman) was instrumental in the establishment of the Institute for Mechanics and Materials which had the purpose of bringing the mechanics and materials communities together. The Institute served the community through short courses, workshops, and faculty exchanges. Professor Sehitoglu was also the Engineering Liaison for the agency-wide Materials Synthesis and Processing and Advanced Materials and Processing Program. In these capacities, he worked with teams from other Directorates within NSF.

6. Fifteen Most Significant - Prof. Sehitoglu_s papers (out of 268 journal papers) #1. Neu, R. and H. Sehitoglu, "Thermomechanical Fatigue, Oxidation, and Creep: Part I. Damage Mechanisms," Metallurgical Transactions, 20A, 1755 1767, 1989 #2. McClung, R. C. and H. Sehitoglu, "On the Finite Element Analysis of Crack Closure, Part I: Basic Modeling Issues," Engineering Fracture Mechanics, 33:2, 237 252, 1989 #3. Sangid, M., H.J.Maier, and H. Sehitoglu, "The Role of Grain Boundaries on Fatigue Crack Initiation - An Energy Approach," I. J. Plasticity, 27, 801-821,

20112012 #4. S. Alkan, A. Ojha, H. Sehitoglu, The Complexity of Non-Schmid Behavior in the CuZnAl Shape Memory Alloy, Journal of the Mechanics and Physics of Solids, 114, 238-257, 2018 #5. S. Alkan, H. Sehitoglu, Nonuniqueness of the fatigue threshold, I. J. Fatigue, 104 (2017) 309_321 6. Jiang, Y. and H. Sehitoglu, _Modeling of Cyclic Ratchetting Plasticity: Part 2 Comparison of Model Simulations with Experiments,_ ASME Journal of Applied Mechanics, 63, 726 733, 1996. 7. Jiang, Y. and H. Sehitoglu, _Modeling of Cyclic Ratchetting Plasticity: Part 1 Development of Constitutive Relations,_ ASME Journal of Applied Mechanics, 63, 720 725, 1996. 8. Gall, K. and H. Sehitoglu, "The Role of Texture in Tension-Compression Asymmetry in Polycrystalline NiTi," International Journal of Plasticity, 15, 69-92, 1999. 9. Gall, K., H. Sehitoglu, Y. Chumlyakov, and I. Kireeva, _Tension Compression Asymmetry of the Stress Strain Response of Aged Single Crystal and Polycrystalline NiTi,_ Acta Materialia, 47:4, 1203 1217, 1999. 10. S. Alkan, H. Sehitoglu, Dislocation core effects on slip response of NiTi- a key to understanding shape memory, International J. Plasticity,97,126, 2017 11. Ezaz,T., M. Sangid, and H. Sehitoglu, "Energy Barriers Associated with Slip-Twin Interactions," Philosophical Magazine A,Vol.91,No.10,1464-1488, 20112012 12. Sangid, M., H. Sehitoglu, H.J. Maier, An energy-based microstructure model to account for fatigue scatter in polycrystals",J. Mechanics and Physics of Solids,59, 3,595-609, 2011 13. Chowdhury, P., H. Sehitoglu, and R. Rateick, "Recent advances in modeling fatigue cracks at microscale in the presence of high density coherent twin interfaces," Current Opinion in Solid State and Materials Science, 20,3,140, 2016. 14. Abuzaid,W., Sangid,M., Carroll,J., Sehitoglu, H., Lambros,J., Slip Transfer and Plastic Strain Accumulation across Grain Boundaries in Hastelloy X, to appear in Journal of the Mechanics and Physics of Solids, 2012 15. Chowdhury, P. and H. Sehitoglu, "A revisit to atomistic rationale for slip in shape memory alloys," Progress in Materials Science, 85,1, 2017. Comments on the Most Important (up to a maximum of 5): We comment on the first five papers that are the most significant in Prof. Sehitoglu_s carreer. The first one (#1) is on thermo-mechanical fatigue and demonstrates for the first time how complex experiments can be conducted in high temperature fatigue. This paper led to symposia, standards and many other papers in the field of thermo-mechanical fatigue. The second paper (#2) is on understanding plasticity effects in fatigue crack growth. This paper is a numerical one and shows the role of constitutive response, constraint and crack closure evolution with increasing crack length most clearly. These two papers were considered as pioneering at the time, so they need to be judged relative to the state of knowledge at that time. The third paper (#3) which includes modeling and experiments shows how the grain boundaries can be treated in a fatigue modeling formulation. The energetics of persistent slip band formulations in this paper is very unique and allowed others to propose similar formulations in later work. The fourth paper (#4) predicts yield surfaces in shape memory alloys without any assumptions. This is a significant undertaking because the previous treatments have completely ignored the non-Schmid phenomenon in shape memory materials. The fifth paper (#5) predicts the effects of grain size and twin dimensions on the threshold stress intensity determination in fatigue. These results make the important observation that threshold stress intensity is not a unique quantity but can be predicted. The paper includes anisotropic image stress calculations and dislocation emission from crack tips under cyclic loading. The underlying significance of these papers are the following: (1) the papers [#4,5] utilize a combination of anisotropic elasticity, atomistic modeling and continuum formulations [#2] to explain fatigue failure in materials, (2) these papers propose new experimental techniques in mechanics to understand the fatigue behavior of metals including changes in temperature and strain (ie. thermo-mechanical fatigue) [#1,3] (3) these papers explain slip phenomenon [#4] and its role in shape memory using the most advanced tools with Eshelby-Stroh formluations, and (4) all these papers are a results of training and education of PhD students.

.Professor Huseyin Sehitoglu 2.John,Alice and Sarah Endowed … · Department of Mechanical Science...

Documents

Transcript of .Professor Huseyin Sehitoglu 2.John,Alice and Sarah Endowed … · Department of Mechanical Science...