Elastoplasticity theory for porous materials

A yield criterion and basic flow equations are developed for finite elastoplastic deformation of porous materials. The yield criterion is derived using a specific micromechanical model of noninteracting spherical pores, with the matrix material being of the yon Mises type. The criterion satisfies th

A phenomenological model for porous layered materials has been developed[ The phenomenological approach for layered materials is combined with a poroelastic constitutive model[ Explicit expressions for e}ective elastic moduli\ thermal expansion coe.cients\ and poroelastic moduli are obtained[ The ob

A general theory of thermoporoelastoplasticity for saturated porous materials is presented. The theory is derived from the thermodynamics of open systems and irreversible processes. The thermal effects, due to the saturating fluid, are taken into account through a latent heat associated with the inc

Taylor tests have been commonly employed to determine dynamic yield stress of solids at a high strain rate. In this paper, the original Taylor model is extended in order to provide a theoretical basis for testing ductile porous materials. The key difference between solids and porous materials in thi