Authors:
Srivatsan, TS
Ravi, BG
Naruka, AS
Riester, L
Yoo, S
Sudarshan, TS
Citation: Ts. Srivatsan et al., Microstructure and hardness of copper powders consolidated by plasma pressure compaction, J MAT ENG P, 10(4), 2001, pp. 449-455
Authors:
Srivatsan, TS
Champlin, J
Zakrajsek, J
Lam, PC
Manoharan, M
Citation: Ts. Srivatsan et al., The impact fracture behavior of aluminum alloy 2024-T351: Influence of notch severity, J MAT ENG P, 10(3), 2001, pp. 362-370
Authors:
Menzemer, CC
Lam, PC
Wittall, CF
Srivatsan, TS
Citation: Cc. Menzemer et al., Study of fusion zone microstruetures of Arc-welded joints made from dissimilar aluminum alloys, J MAT ENG P, 10(2), 2001, pp. 173-177
Citation: Ts. Srivatsan et al., Influence of temperature on cyclic stress response, strain resistance, andfracture behavior of aluminum alloy 2524, MAT SCI E A, 314(1-2), 2001, pp. 118-130
Authors:
Srivatsan, TS
Ravi, BG
Naruka, AS
Riester, L
Yoo, S
Sudarshan, TS
Citation: Ts. Srivatsan et al., A study of microstructure and hardness of bulk copper sample obtained by consolidating nanocrystalline powders using plasma pressure compaction, MAT SCI E A, 311(1-2), 2001, pp. 22-27
Citation: M. Gupta et Ts. Srivatsan, Interrelationship between matrix microhardness and ultimate tensile strength of discontinuous particulate-reinforced aluminum alloy composites, MATER LETT, 51(3), 2001, pp. 255-261
Authors:
Srivatsan, TS
Ravi, BG
Naruka, AS
Riester, L
Petraroli, M
Sudarshan, TS
Citation: Ts. Srivatsan et al., The microstructure and hardness of molybdenum powders consolidated by plasma pressure compaction, POWD TECH, 114(1-3), 2001, pp. 136-144
Citation: Ts. Srivatsan et R. Annigeri, The quasi-static and cyclic fatigue fracture behavior of 2014 aluminum alloy metal-matrix composites, MET MAT T A, 31(3A), 2000, pp. 959-974
Authors:
Song, GB
Kelly, B
Agrawal, BN
Lam, PC
Srivatsan, TS
Citation: Gb. Song et al., Application of shape memory alloy wire actuator for precision position control of a composite beam, J MAT ENG P, 9(3), 2000, pp. 330-333
Authors:
Ravi, BG
Omotoye, OA
Srivatsan, TS
Petrorali, M
Sudarshan, TS
Citation: Bg. Ravi et al., The microstructure and hardness of silicon carbide synthesized by plasma pressure compaction, J ALLOY COM, 299(1-2), 2000, pp. 292-296
Citation: S. Dubey et al., Fatigue crack propagation and fracture characteristics of in-situ titanium-matrix composites, INT J FATIG, 22(2), 2000, pp. 161-174
Authors:
Soboyejo, WO
Dipasquale, J
Ye, F
Mercer, C
Srivatsan, TS
Konitzer, DG
Citation: Wo. Soboyejo et al., An investigation of the fatigue and fracture behavior of a Nb-12Al-44Ti-1.5Mo intermetallic alloy, MET MAT T A, 30(4), 1999, pp. 1025-1038
Authors:
Portisch, H
Zhou, L
Rawers, JC
Hillert, M
Li, XD
Smith, JF
Schwartz, M
Ul Haq, A
Srivatsan, TS
Noebe, RD
Anson, D
Arata, Y
Asthana, R
Bhattacharyya, S
Carbonara, RS
Chama, CC
Frazier, W
Hays, C
Citation: H. Portisch et al., What is the most important innovation in materials science and engineeringof the 20th century?, J MAT ENG P, 8(6), 1999, pp. 621-633
Citation: M. Gupta et Ts. Srivatsan, Microstructure and grain growth behavior of an aluminum alloy metal matrixcomposite processed by disintegrated melt deposition, J MAT ENG P, 8(4), 1999, pp. 473-478
Citation: Cc. Menzemer et al., Mechanical response and failure of bolted connection elements in aluminum alloy 5083, J MAT ENG P, 8(2), 1999, pp. 211-218
Authors:
Al-Hajri, M
Melendez, A
Woods, R
Srivatsan, TS
Citation: M. Al-hajri et al., Influence of heat treatment on tensile response of an oxide dispersion strengthened copper, J ALLOY COM, 290(1-2), 1999, pp. 290-297
Citation: C. Menzemer et Ts. Srivatsan, The effect of environment on fatigue crack growth behavior of aluminum alloy 5456, MAT SCI E A, 271(1-2), 1999, pp. 188-195
Citation: Ts. Srivatsan et Jd. Troxell, Effect of niobium filaments on mechanical response and fracture characteristics of dispersion strengthened copper alloy and copper-niobium microcomposite, MAT SCI E A, 264(1-2), 1999, pp. 60-73