Affiliation:
1. University of California
2. University of California & TimeStep Inc.
Abstract
In this paper, we propose Energetically Consistent Inelasticity (ECI), a new formulation for modeling and discretizing finite strain elastoplasticity/viscoelasticity in a way that is compatible with optimization-based time integrators. We provide an in-depth analysis for allowing plasticity to be implicitly integrated through an augmented strain energy density function. We develop ECI on the associative von-Mises J2 plasticity, the non-associative Drucker-Prager plasticity, and the finite strain viscoelasticity. We demonstrate the resulting scheme on both the Finite Element Method (FEM) and the Material Point Method (MPM). Combined with a custom Newton-type optimization integration scheme, our method enables simulating stiff and large-deformation inelastic dynamics of metal, sand, snow, and foam with larger time steps, improved stability, higher efficiency, and better accuracy than existing approaches.
Funder
DOE U.S. Department of Energy
NSF
Publisher
Association for Computing Machinery (ACM)
Subject
Computer Graphics and Computer-Aided Design
Reference76 articles.
1. SPH granular flow with friction and cohesion
2. A finite element method for animating large viscoplastic flow
3. A fast variational framework for accurate solid-fluid coupling
4. Jan Bender , Matthias Müller , and Miles Macklin . 2017. A survey on position based dynamics , 2017 . In European Association for Computer Graphics : Tutorials . 1--31. Jan Bender, Matthias Müller, and Miles Macklin. 2017. A survey on position based dynamics, 2017. In European Association for Computer Graphics: Tutorials. 1--31.
5. Javier Bonet and Richard D Wood . 1997. Nonlinear continuum mechanics for finite element analysis . Cambridge university press . Javier Bonet and Richard D Wood. 1997. Nonlinear continuum mechanics for finite element analysis. Cambridge university press.
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