Insight into the physics of foam densification via numerical simulation
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Publication:850041
DOI10.1016/J.JMPS.2004.09.003zbMath1122.74365OpenAlexW2016855932MaRDI QIDQ850041
A. D. Brydon, James Guilkey, Scott G. Bardenhagen
Publication date: 15 November 2006
Published in: Journal of the Mechanics and Physics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jmps.2004.09.003
Effective constitutive equations in solid mechanics (74Q15) Material properties given special treatment (74E99)
Related Items (7)
Simulation of the densification of real open-celled foam microstructures ⋮ Implicit constitutive equations in the modeling of bimodular materials: An application to biomaterials ⋮ Analysis and reduction of quadrature errors in the material point method (MPM) ⋮ Modelling contacts with a total Lagrangian material point method ⋮ A generalized particle in cell method for explicit solid dynamics ⋮ Computational modelling of dissipative open-cell cellular solids at finite deformations ⋮ Modeling the dynamic response of viscoelastic open-cell foams
Cites Work
- Unnamed Item
- An implicit particle-in-cell method for granular materials
- An adaptive characteristic Petrov-Galerkin finite element method for convection-dominated linear and nonlinear parabolic problems in one space variable
- Mass matrix formulation of the FLIP particle-in-cell method
- Computational inelasticity
- Meshless methods: An overview and recent developments
- Application of a particle-in-cell method to solid mechanics
- Three-dimensional nonlinear open-cell foams with large deformations
- The material-point method for granular materials
- Analysis of the high strain compression of open-cell foams
- A particle method for history-dependent materials
- Effect of imperfections on the yielding of two-dimensional foams
- A stochastic constitutive model for disordered cellular materials: finite-strain uni-axial compression
- The energetics of heterogeneous deformation in open-cell solid foams
- THE PARTITION OF UNITY METHOD
- Implicit time integration for the material point method: Quantitative and algorithmic comparisons with the finite element method
- New concepts in meshless methods
- FE modelling of deformation localization in metallic foams.
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