Citation: R. Komanduri et Zb. Hou, Thermal analysis of the arc welding process: Part II. Effect of variation of thermophysical properties with temperature, MET MAT T B, 32(3), 2001, pp. 483-499
Authors:
Yan, J
Yoshino, M
Kuriagawa, T
Shirakashi, T
Syoji, K
Komanduri, R
Citation: J. Yan et al., On the ductile machining of silicon for micro electro-mechanical systems (MEMS), opto-electronic and optical applications, MAT SCI E A, 297(1-2), 2001, pp. 230-234
Citation: R. Komanduri et Zb. Hou, Thermal analysis of dry sleeve bearings - a comparison between analytical,numerical (finite element) and experimental results, TRIBOL INT, 34(3), 2001, pp. 145-160
Citation: R. Komanduri et Zb. Hou, A review of the experimental techniques for the measurement of heat and temperatures generated in some manufacturing processes and tribology, TRIBOL INT, 34(10), 2001, pp. 653-682
Citation: K. Mallika et R. Komanduri, Low pressure microwave plasma assisted chemical vapor deposition (MPCVD) of diamond coatings on silicon nitride cutting tools, THIN SOL FI, 396(1-2), 2001, pp. 145-165
Authors:
Yoshino, M
Aoki, T
Chandrasekaran, N
Shirakashi, T
Komanduri, R
Citation: M. Yoshino et al., Finite element simulation of plane strain plastic-elastic indentation on single-crystal silicon, INT J MECH, 43(2), 2001, pp. 313-333
Authors:
Yoshino, M
Aoki, T
Shirakashi, T
Komanduri, R
Citation: M. Yoshino et al., Some experiments on the scratching of silicon: In situ scratching inside an SEM and scratching under high external hydrostatic pressures, INT J MECH, 43(2), 2001, pp. 335-347
Citation: R. Komanduri et al., Molecular dynamics (MD) simulation of uniaxial tension of some single-crystal cubic metals at nanolevel, INT J MECH, 43(10), 2001, pp. 2237-2260
Citation: R. Komanduri et Zb. Hou, Thermal modeling of the metal cutting process - Part II: temperature rise distribution due to frictional heat source at the tool-chip interface, INT J MECH, 43(1), 2001, pp. 57-88
Citation: R. Komanduri et Zb. Hou, Thermal modeling of the metal cutting process - Part III: temperature risedistribution due to the combined effects of shear plane heat source and the tool-chip interface frictional heat source, INT J MECH, 43(1), 2001, pp. 89-107
Citation: R. Komanduri et al., MD Simulation of nanometric cutting of single crystal aluminum-effect of crystal orientation and direction of cutting, WEAR, 242(1-2), 2000, pp. 60-88
Citation: R. Komanduri et Zb. Hou, Thermal modeling of the metal cutting process - Part I - Temperature rise distribution due to shear plane heat source, INT J MECH, 42(9), 2000, pp. 1715-1752
Citation: Zb. Hou et R. Komanduri, General solutions for stationary/moving plane heat source problems in manufacturing and tribology, INT J HEAT, 43(10), 2000, pp. 1679-1698
Citation: R. Komanduri et al., Some aspects of machining with negative-rake tools simulating grinding: a molecular dynamics simulation approach, PHIL MAG B, 79(7), 1999, pp. 955-968
Authors:
Mallika, K
Ramamohan, TR
Jagannadham, K
Komanduri, R
Citation: K. Mallika et al., On the growth of polycrystalline diamond on transition metals by microwave-plasma-assisted chemical vapour deposition, PHIL MAG B, 79(4), 1999, pp. 593-624