Overcoming volumetric locking in material point methods
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Publication:2310872
DOI10.1016/j.cma.2018.01.010zbMath1440.74385OpenAlexW2783220736MaRDI QIDQ2310872
Charles E. Augarde, Michael Cortis, William M. Coombs, Tim J. Charlton
Publication date: 7 April 2020
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2018.01.010
elasto-plasticityvolumetric lockingmaterial point methodfinite deformation mechanicsgeneralised interpolation
Finite element methods applied to problems in solid mechanics (74S05) Finite element, Rayleigh-Ritz and Galerkin methods for boundary value problems involving PDEs (65N30) Kinematics of deformation (74A05)
Related Items (13)
Treatment of near-incompressibility and volumetric locking in higher order material point methods ⋮ An investigation of stress inaccuracies and proposed solution in the material point method ⋮ Analysis and mitigation of spatial integration errors for the material point method ⋮ A mixed three‐field total Lagrangian material point method for phase‐field fracture modeling of nearly incompressible rubber‐like solids ⋮ Ghost stabilisation of the material point method for stable quasi‐static and dynamic analysis of large deformation problems ⋮ Overcoming volumetric locking in stable node‐based smoothed particle finite element method with cubic bubble function and selective integration ⋮ A semi-implicit material point method for coupled thermo-hydro-mechanical simulation of saturated porous media in large deformation ⋮ Circumventing volumetric locking in explicit material point methods: A simple, efficient, and general approach ⋮ On the derivation of a component-free scheme for Lagrangian fluid-structure interaction problems ⋮ An assessment of the total Lagrangian material point method: comparison to conventional MPM, higher order basis, and treatment of near-incompressibility ⋮ On the use of domain-based material point methods for problems involving large distortion ⋮ On Lagrangian mechanics and the implicit material point method for large deformation elasto-plasticity ⋮ Stabilized material point methods for coupled large deformation and fluid flow in porous materials
Uses Software
Cites Work
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