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      PBI: Position-Based Dynamics Handles Updated Lagrangian Inelasticity

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          Abstract

          Position-based Dynamics (PBD) and its extension, eXtended Position-based Dynamics (XPBD), have been predominantly applied to compliant constrained dynamics, with their potential in finite strain inelasticity remaining underexplored. XPBD stands in contrast to other meshless methods, such as the Material Point Method (MPM). MPM is based on discretizing the weak form of governing partial differential equations within a continuum domain, coupled with a hybrid Lagrangian-Eulerian method for tracking deformation gradients. In contrast, XPBD generally entails applying specific constraints, whether hard or compliant, to collections of point masses. This paper revisits this perception, investigating the potential of XPBD in handling inelastic materials that are described with continuum mechanics based yield surfaces and elastoplastic flow rules. Our inspiration is that a robust estimation of the velocity gradient is key to effectively tracking deformation gradients in any meshless context. By further incorporating implicit inelastic constitutive relationships, we introduce an updated Lagrangian augmentation to XPBD. This enhancement enables the simulation of elastoplastic, viscoplastic, and granular substances following their standard constitutive laws. We demonstrate the effectiveness of our method through high-resolution and real-time simulations of diverse materials such as snow, sand, and plasticine, and its integration with standard XPBD simulations of cloth and water.

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          Journal
          19 May 2024
          Article
          2405.11694
          164d8975-5bfe-42f6-bffa-c943a1cedecc

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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          cs.GR

          Graphics & Multimedia design
          Graphics & Multimedia design

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