Vijay Vasudevan

Materials Science and Engineering
Professor

Discovery Park E132F

940-565-2031

Vijay.Vasudevan@unt.edu

Vijay Vasudevan
About

Faculty Info | Google Scholar

Education

Postdoc Fellow, Materials Science and Engineering, University of Illinois, Urbana, IL, 1986-1988
Ph.D. Materials Science and Engineering, University of Tennessee, Knoxville, TN, August 1986
M.S. Materials Science and Engineering, University of Tennessee, Knoxville, TN, June 1982
B.Tech. Metallurgical Engineering, Indian Institute of Technology, Kharagpur, India, May 1979

Research

Fields of Special Interest

Physical metallurgy, phase transformations, high resolution scanning and transmission electron microscopy, advanced mechanical surface treatments, mechanical behavior, creep, fatigue, corrosion, stress corrosion cracking and processing-structure-property relations and additive manufacturing of advanced lightweight alloys, high temperature alloys, intermetallics, aerospace, biomedical and nuclear materials; metal-matrix and intermetallic matrix composites; nanoscale materials; thin films and coatings.

Awarded Grants

V. K. Vasudevan (PI), Co-Is Rajiv S. Mishra (UNT), David Weiss, Adam Loukus (Loukus Technologies), Solid-State Additive Manufacturing of Durable Aluminum-Cerium Alloys for High Temperature Aerospace Structural Applications; Sponsored by DOE-EERE, Federal, Funded $1,191,785,  October 1, 2022 - Sept 30, 2025

Publications

Books

  1. “Kinetics of Ordering Transformations in Metals,” H. Chen and V. K. Vasudevan (eds.), TMS, Warrendale, PA (1992).

Refereed Journal Articles

  1. Q. Zhang, Y. Ye, L. Zhang, T. Huang, Y. Dong, V. K. Vasudevan, C. Ye and H. Ding, “A Review of Low Plasticity Burnishing and its Applications,” Advanced Engineering Materials, 220000365, 1-22 (2022). DOI: 10.1002/adem.202200365
  2. K. M. Nagaraja, W. Li, D. Qian, V. K. Vasudevan, Y-S. Pyun and H. Lu “Multiphysics Modeling of In Situ Integration of Directed Energy Deposition with Ultrasonic Nanocrystal Surface Modification,” International Journal of Advanced Manufacturing Technology , 120(7), 5299-5310 (2022).
  3. R. Tewari, B. Viswanadh and V. K. Vasudevan, “Formation of the Laves Phase in Nb-Ti-Cr-Si-X Based Alloys,” Trans. Indian Inst. Metals, 74(4), 931-939 (2022); https://doi.org/10.1007/s12666-022-02530-8.
  4. J. Kaufman. Z. Špirit, V. K. Vasudevan, M. A. Steiner, S. R. Mannava, J. Brajer, L. Pína and T. Mocek, “Effect of Laser Shock Peening Parameters on Residual Stress and Corrosion Fatigue of AA5083, Metals, 11, 1635 (pp1-10)) (2021); https://doi.org/10.3390/met11101635.
  5. J. Kaufman, J. Racek, M. Ciesler, P. Minarik, M. A. Steiner, S. R. Mannava, V. K. Vasudevan, A. Sharma, M. Bohm, J. Brajer, J. Pilar, L. Pina and T. Mocek, “The Effect of Laser Shock Peening with and without Protective Coating on Intergranular Corrosion of Sensitized AA5083,” Corrosion Science, 94, 109925 (2022).
  6. R. Zhang, R. Chiang, Z. Ren, H. Zhang, W. Zhao, G-X. Wang, V. K. Vasudevan, Y. Dong and C. Ye, “Fatigue Performance Improvement of 7075-T651 Aluminum Alloy by Ultrasonic Nanocrystal Surface Modification,” Journal of Materials Engineering and Performance, published online, October (2021); https://doi.org/10.1007/s11665-021-06308-9 
  7. B. Gnanasekaran, J. Song, V. K. Vasudevan and Y. Fu, “Corrosion Fatigue Characteristics of 316L Stainless Steel Fabricated by Laser Powder Bed Fusion,” Metals, 11, 1046 (pp1-14) (2021); https://doi.org/10.3390/met11071046
  8. M. Kattoura, G. B. Viswanathan, S. R. Mannava, D. Qian and V. K. Vasudevan, “Tensile Properties and Fracture Behavior of ATI 718 Plus Alloy at Room and Elevated Temperatures,” Metall. Mater. Trans., 52A, 3553-3569 (2021); https://doi.org/10.1007/s11661-021-06329-y.
  9. A. Sharma, J. Song, D. Furfari, S. R. Mannava and V. K. Vasudevan, “Remarkable Near-Surface Microstructure of Al 7075 T6 Alloy Laser Shock Peened Without Coating,” Scripta Mater., 202, 114012 (2021); https://doi.org/10.1016/j.scriptamat.2021.114012.
  10. R. J. Griffiths, D. Garcia, J. Song, V. K. Vasudevan, M. A. Steiner, W. Cai and H. Z. Yu, “Solid-State Additive Manufacturing of Aluminum and Copper Using Additive Friction Stir Deposition: Process-Microstructure Linkages,” Materialia, 15, 100967 (2021); https://doi.org/10.1016/j.mtla.2020.100967
  11. Z. Ren, R. Chiang, H. Qin, V. K. Vasudevan, G. L. Doll, Y. Dong and C. Ye, “Tribological Performance of a B-Doped DLC Coating and a Severe Plastic Deformation Process on AISI 52100 Steel,” Wear, 458/459, 203398 (2020); https://doi.org/10.1016/j.wear.2020.203398  
  12. W. Zhao, D. Liu, R. Chiang, H. Qin, X. Zhang, H. Zhang, J. Li, Z. Ren, R. Zhang, G. L. Doll, V. K. Vasudevan, Y. Dong and C. Ye, “Effects of Ultrasonic Nanocrystal Surface Modification on the Surface Integrity, Microstructure, and Wear Resistance of 300M Martensitic Ultra-High Strength Steel,” Journal of Materials Processing Technology, 285, 116767-1 to 15(2020);  https://doi.org/10.1016/j.jmatprotec.2020.116767.
  13. B. T. Donkor, J. Song, Y. Fu, M. Kattoura, S. R. Mannava, M. A. Steiner and V. K. Vasudevan, “Accelerated -FCC to HCP Massive Transformation in a Laser Powder Bed Fusion Additively Manufactured Co-29Cr-5Mo Alloy,” Scripta Materialia, 179, 65-69 (2020); https://doi.org/10.1016/j.scriptamat.2020.01.012.
  14. K. S. Rajeshwari, A. Prakash, R. Jagtap, S. Sankaran, I. Samajdar, V. K. Vasudevan and G. Wilde “On the Comparison of Graded Microstructures Developed Through High Reduction (Per Pass) Cold Rolling (HRCR) and Ultrasonic Nanocrystal Surface Modification (UNSM) in Nickel-Base Alloy 602CA,” Materials Charac., 153, 328-338 (2019); https://doi.org/10.1016/j.matchar.2019.05.021
  15. S. Prabhakaran, S. Kalainathan, P. Shukla and V. K. Vasudevan, “Residual Stress, Phase, Microstructure and Mechanical Property Studies of Ultrafine Bainitic Steel Through Laser Shock Peening,” Optics & Laser Tech., 115, 447-458 (2019); https://doi.org/10.1016/j.optlastec.2019.02.041
  16. S. Prabhakaran, H. G. P. Kumar, S. Kalainathan, V. K. Vasudevan, P. Shukla and D. Lin, “Laser Shock Peening Modified Surface Texturing, Microstructure and Mechanical Properties of Graphene Dispersion-Strengthened Aluminum Nanocomposites,” Surfaces and Interfaces, 14, 127-137 (2019); https://doi.org/10.1016/ j.surfin.2018.12.003
  17. Y. Bazarbayev, M. Kattoura, K. S. Mao, Jie Song, V. K. Vasudevan and J. P. Wharry, “Effects of Corrosion-Inhibiting Surface Treatments on Irradiated Microstructure Development in Ni-Base Alloy 718+,” Journal of Nuclear Materials, 512, 276-287 (2018).
  18. X. Hou, S. Mankoci, N. Walters, H. Gao, R. Zhang, S. Li, H. Qin, Z. Ren, G. Doll, H. Cong, A. Martini, V. K. Vasudevan, X. Zhou, N. Sahai, Y. Dong and C. Ye, “Hierarchical Structures on Nickel-Titanium Fabricated by Ultrasonic Nanocrystal Surface Modification, Mater. Sci. Engrg. C93, 12-20 (2018).
  19. A. Telang, T. Gnaupel-Herold, A. Gill and V. K. Vasudevan, “Effect of Applied Stress and Temperature on Residual Stress Induced by Peening Surface Treatments in Alloy 600,” J. Mater. Eng. Perform., 27, 2796-2804 (2018); https://doi.org/10.1007/s11665-018-3371-1.
  20. A. S. Gill, A. Telang, C. Ye, S. R. Mannava, D. Qian and V. K. Vasudevan, “Local Plasticity and Hardening in Laser Shock Peened IN718 SPF,” Mater. Charac., 142, 15-26 (2018); https://doi.org/10.1016/j.matchar.2018.05.010.
  21. P. Kumar, S. Prabhakaran, X. M. Anthony, S. Kalainathan, D. Lin, P. Shukla and V. K. Vasudevan, “Enhanced Surface and Mechanical Properties of Bioinspired Nanolaminate Graphene-Aluminum Alloy Nanocomposites Through Laser Shock Processing for Engineering Applications,” Materials Today, 16, 81-89 (2018); https://doi.org/10.1016/j.mtcomm.2018.04.010 
  22. A. Telang, A. S. Gill, S. R. Mannava, D. Qian and V. K. Vasudevan, “Effect of Temperature on Microstructure and Residual Stresses Induced by Surface Treatments in Inconel 718 SPF,” Surface & Coatings Tech., 344, 93-101 (2018); https://doi.org/10.1016/j.surfcoat.2018.02.094
  23. M. Kattoura, S. R. Mannava, D. Qian and V. K. Vasudevan, “Effects of Ultrasonic Nanocrystal Surface Modification on Elevated Temperature Residual Stress, Microstructure and Fatigue Behavior of ATI 718 Plus Alloy,” International Journal of Fatigue, 110, 186-196 (2018); https://doi.org/10.1016/j.ijfatigue.2018.01.017.
  24. C. Ye, A. Telang, A. Gill, X. Wen, S. R. Mannava, D. Qian and V. K. Vasudevan, “Effects of Ultrasonic Nanocrystal Surface Modification on Residual Stress, Microstructure and Corrosion Resistance of 304 Stainless Steel Welds,” Metall. Mater. Trans., 49A, 972-978 (2018); https://doi.org/10.1007/s11661-017-4451-9
  25. S. Wada, R. Zhang, S. R. Mannava, V. K. Vasudevan and D. Qian, “Simulation-Based Prediction of Cyclic Failure in Rubbery Materials Using Nonlinear Space-Time Finite Element Method Coupled with Continuum Damage Mechanics,” Finite Elements in Analysis and Design, 138, 21-30 (2018); https://doi.org/10.1016/ j.finel.2017.10.003.
  26. M. Kattoura, A. Telang, D. Qian, S. R. Mannava and V. K. Vasudevan, “Effects of Ultrasonic Nanocrystal Surface Modification on Room Temperature Fatigue Life of ATI 718 Plus Alloy,” Mater. Sci. Engrg., A711, 364-377 (2018); https://doi.org/10.1016/j.msea.2017.11.043.
  27. S. Prabhakaran, A. Kulkarni, G. Vasanth, S. Kalainathan, P. Shukla and V. K. Vasudevan, “Laser Shock Peening Without Coating Induced Residual Stress Distribution, Wettability Characteristics and Enhanced Pitting Corrosion Resistance of Austenitic Stainless Steel,” Applied Surface Science, 478, 17-30 (2018); http://dx.doi.org/10.1016/j.apsusc.2017.09.138.
  28. A. Telang, A. S. Gill, K. Zweiacker, C. Liu, J. M. K. Wiezorek and V. K. Vasudevan, “Effect of Thermo-Mechanical Processing on Sensitization and Corrosion in Alloy 600 Studied by SEM- and TEM-Based Diffraction and Orientation Imaging Techniques,” Journal of Nuclear Materials, 505, 276-288 (2018); http://dx.doi.org/10.1016/j.jnucmat.2017.07.053.
  29. A. Telang, A. S. Gill, G. Ramakrishnan and V. K. Vasudevan, “Effect of Different Overlays on Residual Stress Induced in IN718 SPF by Laser Shock Peening,” International J Peening Sci. Tech., 1, 75-86 (2018); http://dx.doi.org/10.1007/s00466-017-1449-5.
  30. M. R. Karim, M. Kattoura, S. R. Mannava, V. K. Vasudevan, A. S. Malik and D. Qian, “A Computational Study on the Microstructure Evolution in Near-Surface Copper Grain Boundary Structures Due to Femtosecond Laser Processing,” Computational Mechanics, 61, 105-117 (2018); http://dx.doi.org/10.1007/ s00466-017-1449-5.
  31. A. Amanov, Y-S. Pyun and V. K. Vasudevan, “High Strength and Wear Resistance of Tantalum by Ultrasonic Nanocrystalline Surface Modification Technique at High Temperatures,” IOP Conf. Series: Materials Science and Engineering, 194, 012032 (2017); doi:10.1088/1757-899X/194/1/012032
  32. P. Shukla, S. Robertson, H. Wu, A. Telang, M. Kattoura, S. Nath, S. R. Mannava, V. K. Vasudevan and J. Lawrence, “Surface Engineering Alumina Armour Ceramics with Laser Shock Peening,” Mater. & Design, 134, 523-538 (2017); http://dx.doi.org/10.1016/j.matdes.2017.08.066.
  33. M. Kattoura, S. R. Mannava, D. Qian and V. K. Vasudevan, “Effect of Laser Shock Peening on Elevated Temperature Residual Stress, Microstructure and Fatigue Behavior of ATI 718 Plus Alloy,” International Journal of Fatigue, 104, 366-378 (2017); http://dx.doi.org/10.1016/j.ijfatigue.2017.08.006.
  34. H. Zhang, R. Chiang, H. Qin, Z. Ren, X. Hou, D. Lin, G. L. Doll, V. K. Vasudevan, Y. Dong and C. Ye, “The Effects of Ultrasonic Nanocrystal Surface Modification on the Fatigue Performance of 3D-printed Ti64,” International Journal of Fatigue, 103, 136-146 (2017); http://dx.doi.org/10.1016/j.ijfatigue.2017.05.019
  35. M. Kattoura, S. R. Mannava, D. Qian and V. K. Vasudevan, “Effect of Laser Shock Peening on Residual Stress, Microstructure and Fatigue Behavior of ATI 718 Plus Alloy,” International Journal of Fatigue, 102, 121-134 (2017); http://dx.doi.org/10.1016/j.ijfatigue.2017.04.016.
  36. I. Ghamarian, P. Samimia, A. Telang, V.K. Vasudevan and P.C. Collins, “Characterization of the Near-Surface Nanocrystalline Microstructure of Ultrasonically Treated Ti-6Al-4V Using ASTAR™/Precession Electron Diffraction Technique,” Mater. Sci. Engr., A688, 524-531 (2017); http://dx.doi.org/10.1016/j.msea.2017.02.029
  37. R. Zhang, L. Wen, S. Naboulsi, T. Eason, V.K. Vasudevan, and D. Qian, “Accelerated Multiscale Space–Time Finite element Simulation and Application to High Cycle Fatigue Life Prediction,” Computational Mechanics, 58(2): 329-349 (2016).
  38. A. Telang, A. S. Gill, M. Kumar, S. Teysseyre, D. Qian S R. Mannava and V. K. Vasudevan, “Iterative Thermomechanical Processing of Alloy 600 for Improved Corrosion and Stress Corrosion Cracking Resistance,” Acta Mater., 113, 180-193 (2016); http://dx.doi.org/10.1016/j.actamat.2016.05.009
  39. I. Ghamarian, P. Samimi, Y. Liu, B. Poorganji, V. K. Vasudevan and P. C. Collins, “Characterizing the Nano-Structure and Defect Structure of Nano-Scaled Non-Ferrous Structural Alloys,” Mater. Charac., 113, 222-231 (2016); http://dx.doi.org/10.1016/j.matchar.2015.10.002
  40. C. Ye, X. Zhou, A. Telang, H. Gao, Z. Ren, H. Qin, S. Suslov, A. S. Gill, S. R. Mannava, D. Qian, G. L. Doll, A. Martini, N. Sahai and V. K. Vasudevan, “Surface Amorphization of NiTi alloy Induced by Ultrasonic Nanocrystal Surface Modification for Improved Mechanical Properties,” J. Mech. Beh. of Biomed. Mater., 53, 455-462 (2016).
  41. K. Manigandan, T. S. Srivatsan, V. K. Vasudevan, D. Tammana and B. Poorganji,, “Influence of Cyclic Straining on Fatigue, Deformation, and Fracture Behavior of High Strength Alloy Steel,” J. Mater. Engr. And Performance, 25, 138-150 (2016); doi: 10.1007/s11665-015-1736-2.
  42. A. Telang, A. S. Gill, D. Tammana, X. Wen, M. Kumar, S. Teysseyre, S. R. Mannava, D. Qian and V. K. Vasudevan, “Surface Grain Boundary Engineering of Alloy 600 for Improved Resistance to Stress Corrosion Cracking,” Mater. Sci. Engr., A648, 280–288 (2015); doi:10.1016/j.msea.2015.09.074 http://dx.doi.org/10.1016/j.msea.2015.09.074
  43. A. S. Gill, A. Telang and V. K. Vasudevan, “Characteristics of Surface Layers Formed on Inconel 718 by Laser Shock Peening With and Without a Protective Coating,” J. Mater. Proc. Tech., 225, 463-472 (2015); http://dx.doi.org/10.1016/j.jmatprotec.2015.06.026 
  44. A. Telang, A. S. Gill, S. Teysseyre, S. R. Mannava, D. Qian and V. K. Vasudevan,” Effects of Laser Shock Peening on SCC Behavior of Alloy 600 in Tetrathionate Solution, Corrosion Science, 90, 434-444 (2015); http://dx.doi.org/10.1016/j.corsci.2014.10.045.
  45. K. Manigandhan, T. S.  Srivatsan, D. Tammana, B. Poorganji and V. K. Vasudevan, “The Cyclic Strain Resistance, Stress Response, Fatigue Life and Fracture Behavior of a High-Performance Steel,” Mater. Performance & Charac., 3, 20130040, (2014); DOI: 10.1520/MPC20130040.
  46. Z. Zhou, A. S. Gill, A. Telang, S. R. Mannava, K. F. Langer, V. K. Vasudevan and D. Qian, “Experimental and Finite Element Simulation Study of Thermal Relaxation of Residual Stress in Laser Shock Peened IN718 SPF Superalloy,” J. Experimental Mechanics, 54, 1597-1611(2014).
  47. C. Ye, A. Telang, A. S. Gill, S. R. Mannava, D. Qian and V. K. Vasudevan, “Gradient Nanostructure by Ultrasonic Nanocrystal Surface Modification for Enhanced Strength, Ductility and Fatigue Resistance of 304 Austenitic Stainless Steel,” Mater. Sci. Engr., A673, 274-288 (2014); http://dx.doi.org/10.1016/ j.msea.2014.06.114
  48. K. Manigandhan, T. S.  Srivatsan, D. Tammana, B. Poorganji and V. K. Vasudevan, “Cyclic Strain Resistance, Stress Response, Fatigue Life and Fracture Behavior of High Strength Low Alloy Steel 300M,” J. Mater. Engr. Performance, 23, 1799-1814 (2014). doi: 10.1007/s11665-014-0934-7 (2014).
  49. K. Manigandhan, T. S.  Srivatsan, D. Tammana, B. Poorganji and V. K. Vasudevan, “Influence of Microstructure on Strain-Controlled Fatigue and Fracture Behavior of Ultra High Strength Alloy Steel AerMet 100,” Mater. Sci. Engr., A601, 29-39 (2014).
  50. S. Bhamare, T. Eason, S. Spottswood, S. R. Mannava, V. K. Vasudevan and D. Qian, “A Multi-Temporal Scale Approach to High Cycle Fatigue Simulation,” Computational Mechanics, 53, 387-400 (2014); doi: 10.1007/s00466-013-0915-y, 2014.
  51. S. Bhamare, G. Ramakrishnan, S. R. Mannava, K. F. Langer, V. K. Vasudevan, and D. Qian, "Simulation-based Optimization of Laser Shock Peening Process for Improved Bending Fatigue Life of Ti-6Al-2Sn-4Zr-2Mo Alloy," Surfaces & Coatings, 232, 464-474 (2013); doi:/10.1016/j.surfcoat.2013.06.003.
  52. S. Bhamare, S. Subramanian, S. R. Mannava, D. Kirschman, V. K. Vasudevan, and D. Qian, "Design of Dynamic and Fatigue Strength Enhanced Orthopedic Implants," in Multiscale Simulation and Mechanics of Biological Materials, S. Li and D. Qian, Eds., Wiley, West Sussex, UK, pp. 333-349 (2013); ISBN: 9781118350799.
  53. O. Takakuwa, A. S. Gill, G. Ramakrishnan, S. R. Mannava, V. K. Vasudevan and H. Soyama, “Introduction of Compressive Residual Stress by Cavitation Peening of Ti Alloy Rod for Spinal Implants,” Materials Sciences & Applications, 4 (No. 7B), 23-28 (2013).
  54. A. S. Gill, A. Telang, S. R. Mannava, D. Qian, Y-S. Pyun, H. Soyama, and V. K. Vasudevan “Comparison of Mechanisms of Advanced Mechanical Surface Treatments in Nickel-base Superalloy,” Mater. Sci. Engrg, A546, 346-355 (2013).
  55. Z. Zhou, S. Bhamare, G. Ramakrishnan, S.R. Mannava, K. Langer, Y. Wen, D. Qian and V.K. Vasudevan, “Thermal Relaxation of Residual Stress in Laser Shock Peened Ti-6Al-4V Alloy,” Surfaces & Coatings Tech., 206 (Issue 22), pp. 4619-4627 (2012); http://dx.doi.org/10.1016/j.surfcoat.2012.05.022.
  56. Z. Zhou, D. Qian, V. K. Vasudevan, and R. S. Ruoff, "Folding mechanics of bi-layer graphene sheet," Nano LIFE, vol. 02, p. 1240007 (2012).
  57. S. Kanou, O. Takakuwa, S. R. Mannava, D. Qian, V. K. Vasudevan and H. Soyama, “Effect of Impact Energy of Various Techniques on Induced Plastic Deformation Region,” J. Mater. Proc. Tech., 212, pp. 1996-2006 (2012).
  58. A. S. Gill, U. Lienert, J. Almer, D. Lahrman, S. R. Mannava, D. Qian and V. K. Vasudevan “High Spatial Resolution, High Energy Synchrotron X-Ray Diffraction Characterization of Residual Strains and Stresses in Laser Shock Peened IN718 SPF Alloy,” Journal of Applied Physics, 111, pp. 084914-1 (2012).
  59. Z. Zhou, V. K. Vasudevan, and D. Qian, "Energy Loss in Carbon Nanotube Beam Oscillators due to Anelastic Relaxation," Journal of Engineering Materials and Technology, (134), 031005, (2012).
  60. S. R. Mannava, S. Bhamare, V. Chaswal, D. Qian, L. Felon, D. L. Kirschman, R. Tenaglia, D. F. Lahrman, and V. K. Vasudevan, “Application of Laser Shock Peening for Spinal Implants,” Int. J Structural Integrity, 2 (Issue 1), pp. 101-113 (2011).
  61. Z. Zhou, A.S. Gill, D. Qian, S.R. Mannava, K. Langer, Y. Wen and V.K. Vasudevan, “A Finite Element Study of Thermal Relaxation of Residual Stress in Laser Shock Peened IN718 Superalloy,” International Journal of Impact Engineering, 38, pp. 590-596 (2011).
  62. K. J. Leonard, R. Tewari, A. Arya, J. C. Mishurda, G. K. Dey and V. K. Vasudevan Decomposition of the o Phase to the P63/mcm, hP18 Structure in Nb-(24-36)Ti-40Al Alloys,” Acta Mater., 57, pp. 4440-4453 (2009).
  63. J. Han, Y-C. Chen and V. K. Vasudevan, “Nanoscale Alumina reinforced Aluminum Matrix Composites: Microstructure and Mechanical Properties,” Key Engineering Materials, 395, pp. 157-179 (2009).
  64. R. Edelman, J. Ullmer, D. Kohls and V. K. Vasudevan, “Enhancement of Low Energy/Light Element Energy Dispersive Analysis in the Scanning Electron Microscope Using a Non-Focusing X-Ray Optic,” Microscopy and Microanalysis, 15, (2009).
  65. Q. Wu, H. J. Song, R. W. Swindeman, J. P. Shingledecker and V. K. Vasudevan, “Microstructure of Long-Term Aged IN617 Superalloy, Metall. Mater. Trans. A, 39A, pp. 2565-2589 (2008).
  66. R. Tewari, H. J. Song, G. K. Dey, A. Chatterjee and V. K. Vasudevan, “Microstructure Evolution in Niobium Alloys, Metall. Mater. Trans. A, 39A, pp. 1506-1518 (2008).
  67. T. S. Srivatsan, G. Guruprasad and V. K. Vasudevan, “The Quasi Static Deformation and Fracture Behavior of Aluminum Alloy 7150, Materials and Design, 29, pp. 742-751(2008).
  68. K. N. Bhagat, G. S. Reddy, M. A. Jog, R. Aust, V. K. Vasudevan and J. A. Sekhar, “ A Technical Note on a Technique to Determine the Emissivity with Temperature of a Fe-5.8%Al-22%Cr Alloy Metallic Surface,” Metall and Mater. Trans., 38B, 725-728 (2007).
  69. D. Qian, K. Nagarajan, S. R. Mannava and V. K. Vasudevan, “Continuum-based and Cluster Models for Nanomaterials,” in Multiscaling in Molecular and Continuum Mechanics: Scaling in Time and Size from Macro to Nano, G.C. Sih, Editor. Springer Science (2007); ISBN 1-4020-5061-S.
  70. R. Tewari, H. Song, A. Chatterjee and V. K. Vasudevan, “Microstructural Characterization of Multicomponent Nb-Si-Ti-Al-Cr-X Alloys,” Metall. Mater. Trans., 37A, pp. 2669-2683 (2006).
  71. J. Han, M. J. Pluth, J. A. Sekhar and V. K. Vasudevan, “Processing Bulk Structures from Nanoparticles of Aluminum,” Trans. Indian Inst. Metals, Invited article in Special Issue on Science and Technology of Nanomaterials, 58(6), pp. 1189-1202 (2005).
  72. V. Guliants, R. Bhandari, B. Swaminathan, V. K. Vasudevan, H. H. Brongersma, A. Knoester,  A. Gaffney, and S. Han, “Roles of Surface Te, Nb and Sb Oxides in Propane Oxidation to Acrylic Acid over Bulk Orthorhombic Mo-V-O Phase,” J. Phys. Chem. B, 109 (50), pp. 24046-24055 (2005).
  73. M. Ranjan, R. Tewari, W. Van Ooij and V. K. Vasudevan, Authors Reply to “Discussion of "Interfacial Layer in Coatings Produced in Molten Zn-Al Eutectoid Alloy Containing Si” by N.-YU. Tang and Y.H. Liu;,” Metall. Mater. Trans., 36A, pp. 2543-2546 (2005).
  74. S. Tamirisakandala, R. B. Bhat, D. B. Miracle, S. Boddapati, R. Bordia, R. Vanover, and V. K. Vasudevan, “Effect of Boron on the Beta Transus of Ti-6Al-4V Alloy,” Scripta Mater., 53, pp. 217-222 (2005).
  75. T. S. Srivatsan, M. Al-Hajri and V. K. Vasudevan, “Cyclic Plastic Strain Response and Fracture Behavior of 2009 Aluminum Alloy Metal-Matrix Composite,” Inter. J. Fatigue, 27, pp. 357-371 (2005).
  76. M. Ranjan, R. Tewari, W. Van Ooij and V. K. Vasudevan, “Effect of Ternary Additions on the Structure and Properties of Coatings Produced by a High Aluminum Galvanizing Bath,” Metall. Mater. Trans., 35A, pp. 3707-3720 (2004).
  77. V. V. Guliants, R. Bhandari, J. N. Al-Saeedi, R. Soman, O. Guerrero-Pérez, M. A. Bañares and V. K. Vasudevan, “Bulk Mixed Mo-V-Te-O Catalysts for Propane Oxidation to Acrylic Acid,” Appl. Catalysis. A: General, 274 (1-2), pp. 123-132 (2004).
  78. T. S. Srivatsan, M. Al-Hajri, W. Hannon and V. K. Vasudevan, “The Strain Amplitude-Controlled Cyclic Fatigue, Deformation and Fracture Behavior of 7034 Aluminum Alloy Reinforced with Silicon Carbide Particulates,” Mater. Sci. Engrg., A379, pp. 181-196 (2004).
  79. J. M. Howe, W. T. Reynolds and V. K. Vasudevan, “Atomic Structure and Dynamics of Massive Transformation Interfaces in TiAl Alloy,” Z. Metallk., 4, pp. 275-278 (2004).
  80. J. N. Al-Saeedi, V. K. Vasudevan and V. V. Guliants, “Model Bulk Mo-V-Te-O Catalysts for Selective Oxidation of Propane to Acrylic Acid,” Catalysis Communications, 4(10), 537-542 (2003). 
  81. G. B. Viswanathan, M. J. Mills and V. K. Vasudevan, “Microstructural Effects on Tensile Properties and Deformation Behavior of Ti-48Al Gamma Titanium Aluminide,” Metall. Mater. Trans., 34A(10), pp. 2113-2127 (2003).
  82. D. Veeraraghavan, Ping Wang and V. K. Vasudevan, “Nucleation Kinetics of the M Massive Transformation in a Ti-47.5 At.% Al Alloy, Acta Mater., 51(6), pp. 1721-1740 (2003).
  83. L. T. Zhang, K. Ito, H. Inui, V. K. Vasudevan and M. Yamaguchi, “Microstructures with Martensitic Features Induced by Absorption of a Large Amount of Hydrogen in a B2 Single-Phase Ti-22Al-27Nb Alloy,” Acta Mater., 51, pp. 781-788 (2003).
  84. A. Arya, G. K. Dey, V. K. Vasudevan and S. Banerjee, “Effect of Cr Addition on the Ordering Behavior of a Ni-Mo Alloy: Experimental Results vs. Electronic Structure Calculations,” Acta Mater., 50, pp. 3301-3315 (2002).
  85. P. Wang, D. Veeraraghavan, M. Kumar and V. K. Vasudevan, “Massive-Parent Interphase Boundaries and Their Implications on Mechanisms of the M Massive Transformation in Binary Ti-Al Alloys,” Metall. Mater. Trans., 33A, pp. 2353-2371 (2002).
  86. H. I. Aaronson and V. K. Vasudevan, “General Discussion Session of the Symposium on the Mechanisms of the Massive Transformation," Metall. Mater. Trans., 33A, pp. 2445-2470 (2002).
  87. J. M. Howe, W. T. Reynolds and V. K. Vasudevan, “Static and In situ High-Resolution Transmission Electron Microscopy Investigations of the Atomic Structure and Dynamics of Massive Transformation Interfaces in a Ti-Al Alloy,” Metall. Mater. Trans., 33A, pp. 2391-2411 (2002).
  88. K. J. Leonard, J. C. Mishurda and V. K. Vasudevan, “Phase Equilibria at 1100°C in the Nb-Ti-Al System,” Mater. Sci. Engrg., 329-331, pp. 282-288 (2002).
  89. K. J. Leonard and V. K. Vasudevan, “Site Occupancy Preferences in the B2 Ordered Phase in Nb-rich Nb-Ti-Al Alloys,” Mater. Sci. Engrg, 329-331, pp. 461-467 (2002).
  90. K. Ito, L. T. Zhang, V. K. Vasudevan and M. Yamaguchi, “Hydrogen Absorption/Desorption Behavior of Ti-22Al-26Nb Alloys with o Single-Phase and /O Two-Phase Structure,” Mater. Sci. Engrg., 329-331, pp. 356-361 (2002).
  91. L. T. Zhang, K. Ito, V. K. Vasudevan and M. Yamaguchi, “Effects of Cold-Rolling on Hydrogen Absorption/ Desorption Behavior in Ti-22Al-26Nb Alloys,” Mater. Sci. Engrg., 329-331, pp. 362-366 (2002).
  92. S. Karthikeyan, G. B. Viswanathan, P. I. Gouma, Y-W. Kim, V. K. Vasudevan and M. J. Mills, “Mechanisms and Effect of Microstructure on Creep of TiAl-Based Alloys,” Mater. Sci. Engrg, 329-331, pp. 621-630 (2002).
  93. J. C. Mishurda and V. K. Vasudevan, “An Estimate of the Kinetics of the o to Orthorhombic Phase Transformation in Nb-Ti-Al Alloys,” Scripta Mater., 45, pp. 677-684 (2001).
  94. G. B. Viswanathan, S. Karthikeyan, M. J. Mills and V. K. Vasudevan, “Creep Properties of a Fully Lamellar Ti-48Al-2Cr-2Nb Alloy, Mater. Sci. Engrg., 319-321, pp. 833-837 (2001).
  95. K. Ito, L. T. Zhang, V. K. Vasudevan and M. Yamaguchi, “Multiphase Effects on Hydrogen Absorption/Desorption Behavior of a Ti-22Al-26Nb Alloy,” Acta Mater., 49(6), pp. 963-972 (2001).
  96. L. T. Zhang, K. Ito, V. K. Vasudevan and M. Yamaguchi, “Hydrogen Absorption and Desorption in a B2 Single-Phase Ti-22Al-26Nb Alloy Before and After Deformation,” Acta Mater., 49(5), pp. 751-758 (2001).
  97. L. T. Zhang, K. Ito, V. K. Vasudevan and M. Yamaguchi, “Beneficial Effects of O Phase on the Hydrogen Absorption of Ti-Al-NbAlloys,” Intermetallics, 9, pp. 1045-1052 (2001).
  98. M. Yandouzi, L. Toth, V. K. Vasudevan, M. Cannaerts, C. Van Haesendonck and D. Schryvers, “Epitaxial Ni-Al Thin Films on NaCl Using a Ag Buffer,” Phil. Mag. Lett., 80(11), pp. 719-724 (2000).
  99. K. J. Leonard, J. C. Mishurda and V. K. Vasudevan, “Examination of Solidification Pathways and the Liquidus Surface in the Nb-Ti-Al System,” Metall. Mater. Trans., 31B, pp. 1305-1321 (2000). 
  100. K. J. Leonard and V. K. Vasudevan, “Phase Equilibria and Solid-State Transformations in Nb-Rich Nb-Ti-Al Intermetallic Alloys,” Intermetallics, 8, pp. 1257-1268 (2000). 
  101. J. F. Nie, J. M. Howe, V. K. Vasudevan, and H. I. Aaronson, “Discussion of “Surface Relief and the Displacive Transformation to the Lamellar Microstructure in TiAl” and “Nanometer-Scale, Fully Lamellar Microstructure in Aged TiAl-Based Alloy,” Metall. Mater. Trans., 31A, pp. 2377-2379 (2000).
  102. K. J. Leonard, J. C. Mishurda, B. Molloseau, M. de Graef and V. K. Vasudevan, “Identification of a New Tetragonal Phase in the Nb-Ti-Al System,” Phil. Mag. Lett. , 80(5), pp. 295-305 (2000).
  103. T. S. Srivatsan, S. Anand, S. Sriram and V. K. Vasudevan, “The High-Cycle Fatigue and Fracture Behavior of Aluminum Alloy 7055,” Mater. Sci. Engrg. , A281, pp. 292-304 (2000).
  104. P. Wang, M. Kumar and V. K. Vasudevan, “Geometrical and Structural Characteristics of Stacking Fault-Antiphase Boundary Interactions in the Massive M Phase in a Quenched Ti-46.5 At.% Al Alloy,” Philos. Mag. A, 80, pp. 185-199 (2000). 
  105. D. Veeraraghavan, P. Wang and V. K. Vasudevan, “Kinetics and Thermodynamics of the M Massive Transformation in a Binary Ti-47.5 At.% Al Alloy,” Acta Mater., 47(11), pp. 3313-3330 (1999).
  106. M. Kumar, S. Sriram, A. J. Schwartz and V. K. Vasudevan, “Weak-Beam Analysis of Dissociated 1/2<112] Superdislocations in Deformed -TiAl,” Philos. Mag. Letts., 79(6), pp. 315-325 (1999).
  107. G. B. Viswanathan, V. K. Vasudevan and M. J. Mills, “Modification of the Jogged-Screw Model for Creep of -TiAl, Acta Mater, 47, pp. 1399-1411 (1999).
  108. T.S. Srivatsan and V. K. Vasudevan, “Temperature and the Ductility, Deformation and Fracture of Al 7055, JOM, 51(1), pp. 42-45 (1999). 
  109. P. Wang, M. Kumar, K. J. Hemker and V. K. Vasudevan, “Characterization of Unusual Stacking Faults and Dislocations in the Massive m Phase in a Quenched 46.5 At.% Al Alloy,” Mater. Letts., 35, pp. 283-289 (1998).
  110. D. Veeraraghavan, U. Pilchowski, B. Natarajan and V. K. Vasudevan, “Phase Equilibria and Transformations in Ti-(25-52) At.% Al Alloys Studied by Electrical Resistivity Measurements,” Acta Mater., 46, pp. 405-421 (1998).
  111. P. Wang, M. Kumar, D. Veeraraghavan and V. K. Vasudevan, “Observations and Analyses of Dislocations and Stacking Faults in the Massive m Phase in a Quenched Ti-46.5 At.% Al Alloy,” Acta Mater., 46, pp. 13-30 (1998).
  112. T. S. Srivatsan and V. K. Vasudevan, “Cyclic Plastic Strain Response and Fracture Behavior of 2080 Aluminum Alloy Metal Matrix Composite,” Intern. J. of Fatigue, 20(3), pp. 187-202 (1998).
  113. S. Sriram, D. M. Dimiduk, P. M. Hazzledine and V. K. Vasudevan, “The Geometry and Nature of Pinning Points of 1/2<110] Unit Dislocations in Binary TiAl Alloys,” Philos. Mag. A, 76, pp.956-993 (1997).
  114. M. Kumar and V. K. Vasudevan, “Crystallographic Analysis and Observations of True Twinning Modes in the Ni2Mo Superlattice Phase Contained in a Ni-25Mo-8Cr Alloy,” Acta Mater., 45, pp. 3203-3222 (1997).
  115. T. S. Srivatsan, S. Sriram, D. Veeraraghavan and V. K. Vasudevan, “Microstructure, Tensile Properties and Fracture Behavior of Aluminum Alloy 7055,” J. Mater. Sci., 32, 2883-2894 (1997).
  116. T. S. Srivatsan, S. Anand, V. K. Vasudevan and D. Veeraaraghavan, “Tensile Response and Fracture Behavior of Al-Zn-Mg-Cu Alloy,” J. Mater. Engr.  & Performance, 6(3), 349-358 (1997).
  117. V. K. Vasudevan, J. Yang and A. P. Woodfield, “On the  to B2 Ordering Temperature in a Ti-22Al-26Nb Orthorhombic Titanium Aluminide,” Scripta Mater., 35, pp. 1033-1039 (1996).
  118. M. Kumar and V. K. Vasudevan, “Mechanical Properties and Strengthening of a Ni-25Mo-8Cr Alloy Containing Ni2(Mo,Cr) Precipitates,” Acta Mater.,  44, pp. 4865-4880 (1996).
  119. M. Kumar and V. K. Vasudevan, “Deformation-Induced Pseudo-Twinning and a New Superstructure in Ni2Mo Precipitates Contained in an Ni-25Mo-8Cr Alloy,” Acta Mater., 44, pp. 3575-3583 (1996).
  120. M. Kumar and V. K. Vasudevan, “Ordering Reactions in an Ni-25Mo-8Cr Alloy,” Acta Mater., 44, pp.1591-1600 (1996).
  121. P. Wang, D. Veeraraghavan and V. K. Vasudevan, “Observation of Twins in the 2 Phase in a Quenched Ti-46.54 At.% Al Alloy,” Scripta Mater., 34, pp. 1601-1607 (1996).
  122. G. B. Viswanathan and V. K. Vasudevan, “Processing, Microstructure and Tensile Properties of a Ti-48 At.% Al Alloy,” Scripta Metall. Mater.,  32, pp. 1705-1711 (1995).
  123. S. Sriram, V. K. Vasudevan and D. M. Dimiduk, “Dislocation Structures and Deformation Behavior of Ti-50/52Al Alloys Between 77-1273°K,” Mater. Sci. Engg.,  A192/193, pp. 217-225 (1995).
  124. M. A. Stucke, V. K. Vasudevan and D. M. Dimiduk, “Deformation Behavior of [001] Ti-56Al Single Crystals,” Mater. Sci. Engg., A192/193, pp. 111-119 (1995).
  125. D. Veeraraghavan and V. K. Vasudevan, “Phase Transformations in Two-Phase TiAl/Ti3Al Alloys During Continuous Heating and Cooling Studied by Electrical Resistivity Measurements,” Mater. Sci. Engg., A192/193, pp. 950-956 (1995).
  126. T. S. Srivatsan, P. Kumar and V. K. Vasudevan,” “Tensile Deformation and Fracture Behavior of 7150 Aluminum Alloy,” Metals, Materials and Processes, 6(2), pp. 97-106 (1994).
  127. S. S. Yang and V. K. Vasudevan, “Deformation Structures in Cold Rolled Nb-(10-16) At.% Al Solid Solution Alloys,” Scripta Metall. Mater.,  31, pp. 879-884 (1994).
  128. V. K. Vasudevan, E. E. Stansbury and C. R. Brooks, “Domain Coarsening at Grain Boundaries in Ordered Ni4Mo,” Acta Metall. Mater., 40, pp. 2113-2122 (1992).
  129. P. Wang and V. K. Vasudevan, “Composition Dependence of the Massive Transformation from  to  in Quenched TiAl Alloys,” Scripta Metall. et Mater., 27, pp. 89-94 (1992).
  130. P. Wang, G. B. Viswanathan and V. K. Vasudevan, “Observation of a Massive Transformation from  to  in Quenched Ti-48 At Pct Al Alloys,” Metall. Trans., 23A, pp. 690-697 (1992).
  131. R. Wheeler, V. K. Vasudevan and H. L. Fraser, “Factors Influencing the Deformation Mechanisms in the Intermetallic Compounds Al3Ti and Al3V,” Philos. Mag. Letters, 62, pp. 143-151 (1990).
  132. S. A. Court, V.K. Vasudevan and H. L. Fraser, “Deformation Mechanisms in the Intermetallic Compound TiAl,” Philos. Mag. A, 61, pp. 141-158 (1990).
  133. V. K. Vasudevan, S. J. Kim and C. M. Wayman, “Precipitation Reactions and Strengthening Mechanisms in Maraging Steels,” Metall. Trans., 21A, pp. 2655-2668 (1990).
  134. V. K. Vasudevan, M. A. Stucke, S. A. Court and H. L. Fraser, “The Influence of Second Phase Ti3Al on the Deformation Mechanisms in TiAl,” Philos. Mag.Letters, 59, pp. 299-307 (1989).
  135. V. K. Vasudevan, S. A. Court, P. Kurath and H. L. Fraser, “The Effect of Purity on the Deformation Mechanisms in the Intermetallic Compound TiAl,” Scripta Metall., 23, pp. 907-912 (1989).
  136. V. K. Vasudevan, S. A. Court, P. Kurath and H. L. Fraser, “The Effect of Grain Size and Temperature on the Yield Stress of the Intermetallic Compound TiAl,” Scripta Metall., 23, pp. 467-469 (1989).
  137. V. K. Vasudevan and E. E. Stansbury, “Formation Mechanism of Ni3Mo at Low Temperatures in Ternary Ni4Mo-Cr Alloys,” Philos. Mag. Letters, 60, pp. 269-275 (1989).
  138. V. K. Vasudevan, H. P. Kao, C. R. Brooks and E. E. Stansbury, “Kinetics of Domain Growth in Ordered Ni4Mo,” Metall. Trans., 19A, pp. 941-952 (1988).
  139. V. K. Vasudevan and H. L. Fraser, “The Microstructures of Rapidly Solidified and Heat-treated Al-8Fe-2Mo-Si Alloys,” Mater. Sci. Eng., 98, pp. 131-136 (1988).
  140. V. K. Vasudevan and H. L. Fraser, “Identification of Precipitates in Rapidly Solidified and Heat-treated Al-8Fe-2Mo-Si Alloys,” Scripta Metall., 21, pp. 1105-1110 (1987).
  141. V. K. Vasudevan and E. E. Stansbury, “Influence of Chromium on Ordering of Ni4Mo,” Scripta. Metall., 19, pp. 1105-1110 (1985).
  142. V. K. Vasudevan, D. Saigal and T. S. Ananthanarayanan, “Carbon Sands in Foundry,” Annual J. Soc. Met. Engrs., Indian Institute of Technology, Kharagpur, India (1978-79).
  143. V. K. Vasudevan, “The Role of the Metallurgist–a View,” Annual J. Soc. Met. Engrs., Indian Institute of Technology, Kharagpur, India (1977-78).

Refereed Conference/Symposia Proceedings Articles

  1. R. Chiang, H. V. S. Naralasetty, S. R. Mannava, M. A. Steiner and V. K. Vasudevan, “Effects of Laser Shock Peening and Ultrasonic Nanocrystal Surface Modification on the Susceptibility of 304L Stainless Steel to Intergranular Corrosion,” in: Procs. of the 2020 ASME Pressure Vessels & Piping Division Conference, PVP2020-21686, ASME, Minneapolis, MN, July (2020).
  2. S.W. Cho, W. G. Yi, N. Mohr, J. Tatman, C. Stover, H. Naralasetty, V. K. Vasudevan, Y.S. Pyun, A. Amanov, K. T. Kim and Y. S. Kim, “Development of Technical Basis for the New Code Case Mitigation of PWSCC and CISCC in ASME Section III Components by the Advanced Surface Stress Improvement Technology,” in: Procs. of the 2019 ASME Pressure Vessels & Piping Division Conference, 58929, V001T01A088, ASME, San Antonio, TX, July (2019).
  3. K. S. Sidhu, Y. Wang, J. Shi, S. R. Mannava and V. K. Vasudevan “Effects of Laser Shock Peening on Microstructure and Mechanical Properties of Inconel 718 by Selective Laser Melting,” in: Procs. of MSEC 2019, MSEC2019-2893, ASME, Erie, PA, June (2019).
  4. Y. Bazarbayev, K.S. Mao, R. Chiang, V.K. Vasudevan, and J.P. Wharry, “Effect of Residual Stress Mitigation Surface Treatment Techniques on the Irradiation Tolerance of Ni-base Alloys,” in: Proceedings of FONTEVRAUD 9 – Contribution of Materials Investigations and Operating Experience to Light Water NPPs' Safety, Performance and Reliability, Paper 000146 (2018). 
  5. J. Shi, K. Sidhu, S. R. Mannava and V. K. Vasudevan “Residual Stress Enhancement in 3D Printed IN718 Superalloy by Ultrasonic Nanocrystal Surface Modification,” in: Procs. of MSEC 2017, ASME (2017).
  6. A. Telang, C. Ye, A. S. Gill, S. Teysseyre, S. R. Mannava, D. Qian and V. K. Vasudevan “Effects of Laser Shock Peening on SCC Behavior of Alloy 600,” in: Procs. of 16th International Conference on Environmental Degradation of Materials, Wiley (2014).
  7. C. Ye, A. S. Gill, A. Telang, Z. Zhou, D. Qian, S. R. Mannava and V. K. Vasudevan “Effect of Ultrasonic Nanocrystal Surface Modification on Residual Stress, Microstructue and Local Properties of 304 Stainless Steel Welds,” in: Procs. of 16th International Conference on Environmental Degradation of Materials, Wiley (2014).
  8. Q. Wu, J. P. Shingledecker and V. K. Vasudevan, “Microstructure of Advanced Boiler Materials for Ultra Ultra Supercritical Coal Power Plants”, in Pressure Vessels and Piping: Materials and Properties, B. K. Choudhury et al. (eds.), Narosha Publishing House, New Delhi (2007).
  9. J. Wu, G-R. Bai, J. A. Eastman, G. Zhou, V. K. Vasudevan, “Synthesis of TiO2 Nanoparticles Using Chemical Vapor Condensation,” Mat. Res. Soc. Symp. Proc. (2005).
  10. J. P. Shingledecker, R. W. Swindeman, Q. Wu and V. K. Vasudevan, “Strengthening Issues for High Temperature Ni-Based Alloys for Use in USC Steam Cycles,” in: Procs. Of the Advanced Fossil Energy Materials Conference, (2005).
  11. Q. Wu, J. P. Shingledecker, R. W. Swindeman and V. K. Vasudevan, “Microstructure Characterization of Advanced Materials for Ultrasupercritical Coal Power Plants,” in: Advances in Materials Technology for Fossil Power Plants, R. Viswanathan et al. (eds.), ASM International, Materials Park, OH, pp. 793-804 (2005).
  12. J. P. Shingledecker, Q. Wu, R. W. Swindeman and V. K. Vasudevan, “Creep Strength of High-Temperature Alloys for Ultrasupercritical Steam Boilers,” in: Advances in Materials Technology for Fossil Power Plants, R. Viswanathan et al. (eds.), ASM International, Materials Park, OH, pp. 1198-1209 (2005).
  13. P. Wang, D. Veeraraghavan, M. Kumar and V. K. Vasudevan, “Interphase Boundaries in the m Massive Transformation in Ti-Al Alloys,” in: Meshii Symposium Procs. on Frontiers of Electron Microscopy, J. R. Weertman et al. ˆ (eds.), TMS, Warrendale, PA, pp. 339-342 (2003).
  14. K. Ito, L. T. Zhang, Y. Okabe, V. K. Vasudevan and M. Yamaguchi, “Reversible Hydrogen Absorption/Desorption and Related Lattice Deformation of Ti3Al Based Alloys in the Ti-Al-Nb System, Mat. Res. Soc. Symp. Proc., 753, pp. (2003).
  15. D. Shepherd and V. K. Vasudevan, “The Effect of Molybdenum on the Creep Behavior of Orthorhombic Titanium Aluminides,” in: Procs. of ASME Turbo Expo, ASME International, NY (2002).
  16. V. K. Vasudevan and J. A. Sekhar, "Transformation Behavior in Nanoscale Binary Aluminum Alloys," in: Advances in the Metallurgy of Aluminum Alloys, TMS, Warrendale, PA, pp. 398-405 (2001).
  17. Z. Zhang, K. J. Leonard, D. M. Dimiduk and V. K. Vasudevan, “Phase Transformations and Microstructure Evolution in Multicomponent Gamma Titanium Aluminides,” Structural Intermetallics-III., TMS, Warrendale, PA, pp. 515-526 (2001).
  18. S. Karthikeyan, G. B. Viswanathan, Y-W. Kim, V. K. Vasudevan and M. J. Mills, “Mechanisms and Effect of Microstructure on Creep of TiAl-Based alloys, Structural Intermetallics-III., TMS, Warrendale, PA, pp. 717-724 (2001).
  19. G. B. Viswanathan, S. Karthikeyan, M. J. Mills and V. K. Vasudevan, “Creep Mechanisms in Equiaxed and Lamellar Ti-48Al Alloy, Mat. Res. Soc. Symp. Proc., 552, pp. 234-241 (2001).
  20. D. Veeraraghavan, P. Wang, U. Pilchowski and V. K. Vasudevan, “Kinetics of the Transformation in Ti-(46-48)Al Alloys,” in: The Japan Institute of Metals Proceedings on Solid-Solid Phase Transformations I, M. Koiwa, K. Otsuka and T. Miyazaki (eds,) Japan Inst. Metals, Kyoto, Japan, vol. 12, pp.149-152 (1999).
  21. D. M. Dimiduk and V. K. Vasudevan, “Isothermal and Continuous Cooling Decomposition of Alpha and Beta Phases in Gamma Titanium Aluminides,” in: Gamma Titanium Aluminides II, Y. W. Kim, D. M. Dimiduk and M. H. Loretto (eds.), TMS, Warrendale, PA, pp. 239-246 (1999).
  22. G. S. Daehn, G. B. Viswanathan, M. J. Mills and V. K. Vasudevan, “A Model of Creep Based on Interacting Elements and its Application to the Primary Creep of Fully-Lamellar TiAl,” in: Creep Behavior of Advanced Materials for the 21st Century, R. S. Mishra, A. K. Mukherjee and K. L. Murty (eds.), TMS, Warrendale, PA, pp. 31-40 (1999).
  23. F. Ritzert, D. Arenas, and V. K. Vasudevan, “The Effect of Alloying on TCP Phase Instability in Advanced Nickel-Base Superalloy Rene N6,” in: Procs. of Symposium on Long Term Stability of High Temperature Materials,” TMS, Warrendale, PA, , pp. 111-119 (1999). (Invited Paper).
  24. M. Kumar, S. Sriram, A. J. Schwartz and V. K. Vasudevan, "Analysis of Weak-Beam Contrast from SESF/SISF Fault Pairs Associated with 1/2<112] Dislocations in -TiAl," Mat. Res. Soc. Symp. Proc., 552 (1999). 
  25. F. Ritzert, D. Arenas and V. K. Vasudevan, “Investigation of the Formation of Topologically Close Packed Phase Instabilities in Nickel-Base Superalloy Rene N6,” in: Procs. of International Symposium on Processing of Metals and Advanced Materials: Modeling, Design, and Properties,” TMS, Warrendale, PA, pp. 163-174 (1998); (Invited Paper).
  26. K. Madangopal, B. Natarajan, V. K. Vasudevan and D. M. Dimuduk, “Microstructure Evolution in Gamma Titanium Aluminides Containing Beta-Phase Stabilizers and Boron Additions,” in: Structural Intermetallics II, R. Darolia et al. (eds.), TMS, Warrendale, PA,  pp. 235-244 (1997).
  27. M. Kumar and V. K. Vasudevan, “Ordering Reactions, Mechanical Properties and Deformation Mechanisms in an Ni-25Mo-8Cr Alloys,” in: Advances in Physical Metallurgy, S. Banerjee and R. V. Ramanujan (eds.), Gordon & Breach, Amsterdam, Netherlands, pp. 228-231 (1996).
  28. T. S. Srivatsan and V. K. Vasudevan, “Cyclic Plastic Strain Response and Fracture Behavior of Particulate Reinforced 2014 Aluminum Alloy Metal Matrix Composite,” in: Processing and Fabric. of Adv. Maters. IV, T. S. Srivatsan and J. J. Moore (eds.), TMS, Warrendale, PA, pp. 643-688 (1995).
  29. D. Veeraraghavan and V. K. Vasudevan, “Kinetics of the Transformation from  During Continuous Heating and Cooling in a Ti-47.5 At.% Al Alloy,” in: Gamma Titanium Aluminides I, Y. W. Kim, R. Wagner and M. Yamaguchi (eds.), TMS, Warrendale, PA, pp. 157-164 (1995).
  30. G. B. Viswanathan and V. K. Vasudevan, “Microstructural Effects on Creep Properties of a Ti-48Al Alloy,” Gamma Titanium Aluminides I, Y. W. Kim, R. Wagner, M. Yamaguchi (eds.), TMS Warrendale PA, 967-974 (1995).
  31. S. Sriram, V. K. Vasudevan and D. M. Dimiduk, “Deformation Behavior and Dislocation Mechanisms in TiAl Alloys,” Mat. Res. Soc. Symp. Proc., 364, pp. 647-652 (1995).
  32. H. I. Aaronson, P. Wang, D. J. Michel, C. R. Feng and V. K. Vasudevan, “A Comparative Study of the Massive Transformation in Ti-46.5% Al and Other Alloy Systems,” in: Solid-Solid Phase Transformations, W. C. Johnson, J. M. Howe, D. E. Laughlin and W. A. Soffa (eds.), TMS-AIME, Warrendale, PA, pp. 505-510 (1994).
  33. D. Veeraraghavan, G. Ramanath, P. Wang and V. K. Vasudevan, “The Transformation From  to  During Continuous Cooling in Ti-(47-48) At.% Al Alloys,” in: SolidSolid Phase Transformations, W. C. Johnson, J. M. Howe, D. E. Laughlin and W. A. Soffa (eds.), TMS-AIME, Warrendale, PA, pp. 273-278 (1994).
  34. P. Wang, D. Veeraraghavan and V. K. Vasudevan, “The Transformation From  to  in a Ti-48 At.% Al Alloy,” in: SolidSolid Phase Transformations, W. C. Johnson, J. M. Howe, D. E. Laughlin and W. A. Soffa (eds.), TMS-AIME, Warrendale, PA, pp. 303-308 (1994).
  35. S. Sriram, G. B. Viswanathan and V. K. Vasudevan, “Effect of Composition, Temperature and Microstructure on Twinning in TiAl Alloys,” in: Twinning in Advanced Materials, M. H. Yoo and M. Wuttig (eds.), TMS-AIME, Warrendale, PA, pp. 383-394 (1994).
  36. M. Kumar and V. K. Vasudevan, “Twinning in an Elevated Temperature Ni-25Mo-8Cr Alloy Containing Ni2(Mo,Cr) Precipitates,” in: Twinning in Advanced Materials,  M. H. Yoo and M. Wuttig (eds.), TMS-AIME, Warrendale, PA, pp. 423-432  (1994).
  37. S. Sriram, V. K. Vasudevan and D. M. Dimiduk, “Mechanical Properties and Dislocation Structures in TiAl Alloys with Varying Aluminum Content,” Mat. Res. Soc. Symp. Proc., 288, pp. 737-742 (1993).
  38. G. B.Viswanathan and V.K. Vasudevan, “Tensile, Creep Properties and Microstructural Correlations in an Extruded Ti-48Al Alloy,” Mat. Res. Soc. Symp. Proc., 288, pp. 787-792 (1993).
  39. G. Ramanath and V. K. Vasudevan, “The  Transformation During Continuous Cooling in Ti-48 At.% Al Alloys,” Mat. Res. Soc. Symp. Proc., 288, pp. 223-228 (1993).
  40. P. Wang and V. K. Vasudevan, “Effect of Cooling Rate on Decomposition of the  Phase in Ti-(43-50) At.% Al Alloys,” Mat. Res. Soc. Symp. Proc., 288, pp. 229-236 (1993).
  41. S. S. Yang and V. K. Vasudevan, “Transformations, Microstructure and Properties in Nb-(10-16) At.% Al Alloys,” Mat. Res. Soc. Symp. Proc., 288, pp. 731-736 (1993).
  42. M. Kumar and V. K. Vasudevan, “Short-range to Long Range Ordering Transformations in an Elevated Temperature Ni-25Mo-8Cr Alloy,” in: Kinetics of Ordering Transformations in Metals, TMS, Warrendale, PA, pp. 131-139 (1992).
  43. S. Sriram, V. K.Vasudevan and D. M. Dimiduk, “Deformation Mechanisms in TiAl-Based Alloys Containing Low Oxygen,” Mat. Res. Soc. Symp. Proc., 213, pp. 375-383 (1991).
  44. M. Kumar and V. K. Vasudevan, “Short-range to Long-Range Ordering Reactions in a Ni-25Mo-8Cr Alloy,” Mat. Res. Soc. Symp. Proc., 213, pp. 187-192 (1991).
  45. T. S. Srivatsan, D. Lanning, V. K. Vasudevan and G. B. Viswanathan, “Cyclic Stress Response and Fatigue Fracture Characteristics of 7150 Aluminum Alloy,” in: Fracture of Engineering Materials and Structures, S. H. Teoh and K. H. Lee (eds.), Elsevier, NY, pp. 691-699 (1991).
  46. T. S. Srivatsan, D. Lanning and V. K. Vasudevan, “High Strain Cyclic Fatigue, Cyclic Stress Response and Fracture Behavior of Aluminum Alloy 7150,” in: Aluminum: Strategies for the Nineties and Beyond, K. P. Abraham, S. Seshan and E. S. Dwarkadasa (eds.), Aluminum Assoc. of India, Bangalore, India, vol. II, pp. 731-744 (1991).
  47. M. R. Krishnadev, J. T. McGrath, S. Dionne, V. K. Vasudevan and K. D. Challenger, “Metallography of 690 MPa Grade HSLA Steels,” Microstructural Science, 20, pp. 239-250 (1991).
  48. M. R. Krishnadev, J. T. Bowker, J. T. McGrath, V. K. Vasudevan and K. D. Challenger, “Influence of Variability in Base Plate Alloy Chemistry and Processing on HAZ toughness and Microstructure in Advanced Copper-HSLA Steels,” in: Recent Trends in Welding Science and Technology, ASM International, pp. 799-803 (1990).
  49. V. K. Vasudevan, R. Wheeler and H. L. Fraser, “The Mechanisms of Plastic Deformation of Rapidly Solidified Al3Ti and Al67Ni8Ti25 Intermetallic Compounds,” Mat. Res. Soc. Symp. Proc., 133, pp. 705-710 (1989).
  50. V. K. Vasudevan, S. J. Kim and C. M. Wayman, “Identification of Precipitates in 18% Nickel Maraging Steels,” in: Maraging Steels: Recent Developments and Applications, TMS, Warrendale, PA, pp. 283-293 (1988).
  51. V. K. Vasudevan and H. L. Fraser, “Convergent Beam Electron Diffraction at Medium Voltages,” Invited paper, Analytical Electron Microscopy, D. C. Joy (ed.), San Francisco Press, San Francisco, CA, pp. 173-175 (1987).
  52. H. P. Kao, C. R. Brooks and V. K. Vasudevan, “High Temperature Strength of Ordered and Disordered Ni4Mo,” Mat. Res. Soc. Symp. Proc., 81, pp. 335-340 (1987).
  53. V. K. Vasudevan, H.P. Kao, C. R. Brooks and E. E. Stansbury, “Domain Coarsening by Grain Boundary Migration in Ordered Ni4Mo,” Proc. 44th Annual Meeting of EMSA, G. W. Bailey (ed.), San Francisco Press, San Francisco, CA, pp. 560-561 (1986).
  54. H. P. Kao, V. K. Vasudevan and C. R. Brooks, “Dislocations and Strengthening in Ordered Ni4Mo,” Proc. 44th Annual Meeting of EMSA, G. W. Bailey (ed.), San Francisco Press, CA, pp. 562-563 (1986).
  55. V. K. Vasudevan and E. E. Stansbury, “Electron Microscopy Study of Structural Changes During Isothermal Annealing of a Ni4Mo-Based Alloy Containing Chromium,” Mat. Res. Soc. Symp. Proc., 62, pp. 337-347 (1986).
  56. T. S. Lei, V. K. Vasudevan and E. E. Stansbury, “Resistivity of Short-Range and Long-Range Order Changes in Ni4Mo,” Mat. Res. Soc. Symp. Proc., 39, pp. 163-172 (1985).
  57. E. E. Stansbury, V. K. Vasudevan and T. S. Lei, “Metallographic Study of Ordering in Ni4Mo,” Microstructural Science, 13, pp. 197-219 (1985).
Professional Experience

Professional Positions

Academic - Post-Secondary

  • Professor and Chair, University of North Texas, Department of Materials Science and Engineering, Denton, TX 76207-7012. (September 1, 2021 – Present).
  • Professor Emeritus, University of Cincinnati, Department of Mechanical and Materials Engineering, Cincinnati, OH 45221-0072. (September 1, 2021 – Present).
  • Herman Schneider Professor of Materials Science and Engineering, University of Cincinnati, Department of Mechanical and Materials Engineering, Cincinnati, OH 45221-0072. (September 1, 2017 – August 31, 2021).
  • Professor of Materials Science and Engineering, niversity of Cincinnati, Department of Mechanical and Materials Engineering, Cincinnati, OH 45221-0072. (September 1, 1998 – August 31, 2021).
  • Visiting Professor, Indian Institute of Technology, Department of Metallurgy and Materials Science, Mumbai. (May 1, 2016 – July 31, 2016).
  • Visiting Professor, Ruhr University, Institute for Materials, Bochum. (June 1, 2013 – August 31, 2013).
  • Fellow, JSPS, Tohoku University, Department of Nanomechanics, Sendai. (May 1, 2013 – May 31, 2013).
  • Visiting Professor, Indian Institute of Science, Department of Materials Engineering, Bangalore. (February 1, 2013 – April 30, 2013).
  • Chair, Materials Science and Engineering Program, University of Cincinnati, Department of Chemical and Materials Engineering, Cincinnati, OH. (October 1, 2007 – June 2010).
  • Special Term Faculty Appointee, Argonne National Laboratory, Materials Science Division, Argonne, IL. (July 1, 2002 – September 30, 2008).
  • Graduate Program Director, Materials Science and Engineering Program, University of Cincinnati, Department of Chemical and Materials Engineering, Cincinnati, OH. (October 1, 2005 – September 30, 2007).
  • Visiting Scientist, National Institute of Materials Science, NanoMaterials Laboratory, Tsukuba. (January 26, 2003 – February 1, 2003).
  • Faculty Research Participant, Argonne National Laboratory, Materials Science Division, Argonne, IL. (July 1, 2000 – September 30, 2002).
  • Visiting Professor, Bhabha Atomic Research Center, Materials Science Division, Mumbai. (July 16, 2001 – July 20, 2001).
  • Fulbright Senior Scholar, University of Antwerp (RUCA), EMAT, Antwerp. (April 1999 – September 30, 1999).
  • Fellow, JSPS, Kyoto University, Department of Materials Science and Engineering, Kyoto. (September 1, 1998 – December 31, 1998).
  • Visiting Scientist, Air Force Research Laboratory, Materials Directorate, WPAFB, Dayton. (June 1, 1989 – September 30, 1998).
  • Associate Professor of Materials Science and Engineering, University of Cincinnati, Department of Materials Science and Engineering, Cincinnati, OH 45221-0012. (September 1, 1994 – August 31, 1998).
  • Assistant Professor of Materials Science and Engineering, University of Cincinnati, Department of Materials Science and Engineering, Cincinnati, OH 45221-0012. (September 1, 1988 – August 31, 1994).
  • Research Assistant Professor, University of Illinois, Department of Materials Science and Engineering, Urbana, IL. (April 1, 1987 – August 31, 1988).
  • Postdoctoral Research Fellow, University of Illinois, Department of Materials Science and Engineering, Urbana, IL. (April 1, 1986 – March 31, 1987).
  • Graduate Research Assistant, University of Tennessee, Department of Materials Science and Engineering, Knoxville, TN. (January 1980 – March 31, 1986).
  • Graduate Teaching Assistant, University of Tennessee, Department of Materials Science and Engineering, Knoxville, TN. (January 1, 1980 – December 31, 1982).


Professional

  • Graduate Trainee, Tata Engineering and Locomotive Company, Jamshedpur,. (June 1, 1979 – December 15, 1979).
  • Cooperative Trainee, Mazagon Docks, KCP Ltd, Mukund Iron & Steel, Bhadravati Steel, Nitin Castings; Mumbai, Chennai, Bhadravati. (June 1, 1976 – July 31, 1978).

Professional Society Memberships

  • American Society for Materials International (1980-present).
  • The Minerals, Metals and Materials Society (1980-present).
  • Materials Research Society (1985-2000)
  • Member, ASMI Residual Stress Technical Committee (2022-present)
  • Chairman, ASMI-MSCTS Phase Transformations Committee (1997-99); Vice-Chairman (1995-97); member (1987-present).
  • Chairman (1999-present), ASMI-MSCTS, Structures Committee; Vice-Chair (1997-1999); member (1994-present).
  • Vice-Chairman, ASMI-MSCTS Council (2000-01)
  • Member/TMS Representative, Joint Commission for Metallurgical and Materials Transactions (2005-08).
  • Member, ASMI Gibbs Award Committee (2008-present).
  • Chair, Board of Review, Metallurgical and Materials Transactions (2005).
  • Vice-Chair, Board of Review, Metallurgical and Materials Transactions (2003-04).
  • Member, ASMI-Student Awards Committee, (2002-present).
  • Member, TMS-Nominating Committee (2003-present)
  • Executive Committee Member in charge of Technical Planning, ASMI, Cincinnati Chap. (1993-95).
  • Tau Beta Pi Honor Society (1980-present)
Patents
  1. D. L. Kirschman, S. R. Mannava and V. K. Vasudevan, “An Implant and a System and Method for Processing, Designing and Manufacturing an Improved Orthopedic Implant,” US Provisional Patent Filing 12/557,577 and 61/162,697 March (2009) and February (2010); Publication Number 20100249926, September 30 (2010).
  2. M. Ranjan, R. Tewari, W. Van Ooij and V. K. Vasudevan, “Effect of Ternary Additions on the Structure and Properties of Coatings Produced by a High Aluminum Galvanizing Bath,” US Patent Filing 10/597,231 and Canada Patent Application 2,554,062, June (2007); Publication Number 20090004400, January 1 (2009).
Honors and Awards

Teaching

  • Master Engineering Educator Award, College of Engineering, University of Cincinnati, Nominated (2006-2008).
  • Award for Excellence in Mentoring of Doctoral Students, Division of Research and Advanced Studies, University of Cincinnati, Nominated (2001).
  • Neil Wandmacher Outstanding Teaching Award, College of Engineering, University of Cincinnati (2000).
  • Honor Roll Professor, College of Engineering, University of Cincinnati (2000).
  • A. B. (Dolly) Cohen Award for Excellence in Teaching, University of Cincinnati, Nominated (1997).
  • ASMI Bradley Stoughton Young Teachers Award, Nominated by the University of Cincinnati (1992).
  • Recognized for Outstanding Teaching, Dept. of Mater. Sci. & Engr., University of Illinois, Urbana, IL 61801 (1988).
  • Outstanding Teaching Award, Dept. of Mater. Sci. & Engr., University of Tennessee-Knoxville (1985).

Research/Professional

  • Herman Schneider Professor of Materials Science and Engineering, College of Engineering and Applied Science, University of Cincinnati, Cincinnati, OH (9/2017-).
  • Fellow of the Graduate School, University of Cincinnati, Cincinnati, OH (1/2018-).
  • Japan Society for the Promotion of Science Fellow, Tohoku University, Sendai, Japan (2013).
  • Distinguished Researcher Award, College of Engineering and Applied Science, University of Cincinnati (2010), (2011).
  • Member, Review Committee for the MSE Graduate Program at the University of Pittsburgh (2010).
  • Member, NSF review panels
  • Elected to the Editorial Board of Journal of Metallurgy (2008-present).
  • Champion H. Mathewson Medal with J. M. Howe and W. T. Reynolds, for most notable contribution to metallurgy/materials science for paper published in Metall. Mater. Trans. entitled “Static and In situ High Resolution Transmission Electron Microscopy Observations of Massive Transformation Interfaces in a Ti-Al Alloy;” The Minerals, Metals & Materials Society, Warrendale, PA (2005).
  • Chair, Board of Review, Metallurgical and Materials Transactions (2004-2005).
  • Member/TMS Representative, Joint Commission for Metallurgical and Materials Transactions (2005-07; 2013-15).
  • Fellow, American Society for Materials International (2000).
  • Fulbright Senior Scholar Award, University of Antwerp (RUCA), EMAT, Antwerp, Belgium (1999).
  • Japan Society for the Promotion of Science Fellow, Kyoto University, Kyoto, Japan (1998).
  • Sigma Xi Young Investigator Award for Scientific Research, University of Cincinnati (1997).
  • Elected to Review Panel on Intermetallics for DoE, Fossil Energy Program, Feb. (1995).
  • Best Poster Paper Award, with M. Kumar, S. Sriram and A. J. Schwartz, Materials Research Society Symposium on High Temperature Ordered Intermetallic Alloys - VIII, Boston, MA, December (1998).
  • Best Poster Paper Award, with S. Sriram and D. M. Dimiduk, International Symposium on Gamma Titanium Aluminides, TMS-AIME, Las Vegas, NV, February (1995).
  • Best Poster Paper Award, with D. Veeraraghavan, Materials Research Society Symposium on High Temperature Ordered Intermetallic Alloys - VI, Boston, MA, December (1994).
  • Indian Institute of Metals Gold Medal, with M. Kumar, International Conference on Advances in Physical Metallurgy, Bhabha Atomic Energy Research Center, Bombay, India, March (1994).
  • Indian Institute of Metals Silver Medal, with S. Sriram and D. M. Dimiduk, Intern. Conf. on Advances in Physical Metallurgy, Bhabha Atomic Energy Research Center, Bombay, India, March (1994).
  • Best Poster Paper Award, with G. Ramanath, Materials Research Society Symposium on High Temperature Ordered Intermetallic Alloys - V, Boston, MA, December (1992).
  • Honorable Mention, Optical Microscopy Class, International Metallographic Society Exhibition (1984)

Service

  • Certificate of Recognition and Appreciation for Outstanding Service, TMS, (1992), (1997), (2000) and (2002).
  • Certificate of Appreciation for Valuable Services, ASMI Cincinnati Chapter (1994).