THERMODYNAMICALLY CONSISTENT CONSTITUTIVE-EQUATIONS FOR NONISOTHERMAL LARGE-STRAIN, ELASTOPLASTIC, CREEP-BEHAVIOR

The paper is concerned with the development of constitutive relations for large nonisothermal elastic-viscoplastic deformations for metals. The kinematics of elastic-plastic deformation, valid for finite strains and rotations, is presented. The resulting elastic-plastic uncoupled equations for the deformation rate combined with use of the incremental elasticity law permits a precise and purely deductive development of elastic-viscoplastic theory. It is shown that a phenomenological thermodynamic theory in which the elastic deformation and the temperature are state variables, including few internal variables, can be utilized to construct elastic-viscoplastic constitutive equations appropriate for metals. The limiting case of inviscid plasticity is examined.