Citation: G. Rengarajan et Kr. Rajagopal, On the form for the plastic velocity gradient L-P in crystal plasticity, MATH MECH S, 6(5), 2001, pp. 471-480
Citation: S. Darbha et Kr. Rajagopal, Aggregation of a class of large-scale, interconnected, nonlinear dynamicalsystems, MATH PROB E, 7(4), 2001, pp. 379-392
Citation: Sj. Makosey et Kr. Rajagopal, The application of ideas associated with materials with memory to modelingthe inelastic behavior of solid bodies, INT J PLAST, 17(8), 2001, pp. 1087-1117
Citation: Kr. Rajagopal et Ar. Srinivasa, Modeling anisotropic fluids within the framework of bodies with multiple natural configurations, J NON-NEWT, 99(2-3), 2001, pp. 109-124
Citation: D. Mansutti et al., On the influence of the deformation of the forming solid in the solidification of a semi-infinite water layer of fluid, MATH MOD M, 11(2), 2001, pp. 367-386
Citation: He. Huntley et al., Load maximum behavior in the inflation of hollow spheres of incompressiblematerial with strain-dependent damage, Q APPL MATH, 59(2), 2001, pp. 193-223
Citation: L. Tao et al., A mixture theory for heat-induced alterations in hydration and mechanical properties in soft tissues, INT J ENG S, 39(14), 2001, pp. 1535-1556
Authors:
Rajagopal, KR
Singh, B
Singh, BP
Vedachalam, N
Citation: Kr. Rajagopal et al., Novel methods of temperature compensation for permanent magnet sensors andactuators, IEEE MAGNET, 37(4), 2001, pp. 1995-1997
Citation: I. Lapczyk et al., Deformation twinning during impact of a titanium cylinder numerical calculations using a constitutive theory based on multiple natural configurations, COMPUT METH, 188(1-3), 2000, pp. 527-541
Citation: Kr. Rajagopal, Remarks on "On a generalized nonlinear K-epsilon model and the use of extended thermodynamics in turbulence", TH COMP FL, 13(3), 1999, pp. 167-169