An explicit material point finite element method for hyper-velocity impact

## Abstract A number of coupled particle–element and hybrid particle–element methods have been developed for the simulation of hypervelocity impact problems to avoid certain disadvantages associated with the use of pure continuum‐based or pure particle‐based methods. To date these methods have empl

## Abstract Energy consistency for the material‐point method (MPM) is examined for thermodynamically consistent hyperelastic‐plastic materials. It is shown that MPM can be formulated with implicit, three‐ field variational, finite element algorithms which dissipate energy and conserve momentum for

## Abstract An implicit integration strategy was developed and implemented for use with the material point method (MPM). An incremental‐iterative solution strategy was developed around Newton's method to solve the equations of motion with Newmark integration to update the kinematic variables. Test

zero thickness quarter point crack tip element for modeling the interface crack between two materials is presented. The stiffness matrix of the element is derived. The element is shown to have the theoretical l/&singularity in the stress field at the crack tip and is compatible with other singular q