English

Multi-temporal decomposition for elastoplastic ratcheting solids

Numerical Analysis 2023-11-14 v2 Materials Science Numerical Analysis

Abstract

This paper presents a multi-temporal formulation for simulating elastoplastic solids under cyclic loading. We leverage the proper generalized decomposition (PGD) to decompose the displacements into multiple time scales, separating the spatial and intra-cyclic dependence from the inter-cyclic variation. In contrast with the standard incremental approach, which solves the (non-linear and computationally intensive) mechanical balance equations at every time step, the proposed PGD approach allows the mechanical balance equations to be solved exclusively for the small-time intra-cyclic response, while the large-time inter-cyclic response is described by simple scalar algebraic equations. Numerical simulations exhibiting complex cyclic responses, including a 2D problem and an application to a monopile foundation, demonstrate that PGD solutions with a limited number of space-time degrees of freedom may be obtained numerically, only requiring a few modes to accurately capture the reference response.

Keywords

Cite

@article{arxiv.2308.11821,
  title  = {Multi-temporal decomposition for elastoplastic ratcheting solids},
  author = {Jacinto Ulloa and Geert Degrande and José E. Andrade and Stijn François},
  journal= {arXiv preprint arXiv:2308.11821},
  year   = {2023}
}

Comments

Version accepted for publication in Computer Methods in Applied Mechanics and Engineering

R2 v1 2026-06-28T12:02:02.276Z