On large deformation hyperelasto-plasticity of anisotropic materials

The identification of materials rheological behaviour in the non-linear range is based on experimental tests. When using direct identification methods, one faces the problem of the interpretation of the experimental tests, which requires the assumption of deformation homogeneity and therefore the us

A methodology for computationally efficient formulation of the tangent stiffness matrix consistent with incrementally objective algorithms for integrating finite deformation kinematics and with closest point projection algorithms for integrating material response is developed in the context of finit

A theory describing plastic deformation of granular (purely frictional) materials is presented. The theory is developed from postulates for energy dissipation and for the mode of plastic deformation. The postulates are based on some restrictions for the properties of granular materials and on a fric

A specialized finite difference method with grid refinement and variable time steps is created to approximate the deformation velocity and the temperature in a simple model of the shearing of a thermoplastic material. A specific problem where the solution exhibits "blowup" in the adiabatic case is c

The performance of an anisotropic Morley thin shell element in large deformation explicit dynamic analysis is investigated in this study. A contact algorithm is also developed to study the behaviour of this element in metal forming processes, as a substitute for the continuum quadrilateral shell ele