Numerical integration of rate-independent BCC single crystal plasticity models: comparative study of two classes of numerical algorithms
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Publication:6561148
DOI10.1002/nme.5215zbMath1548.74138MaRDI QIDQ6561148
M. Ben Bettaieb, Farid Abed-Meraim, Holanyo K. Akpama
Publication date: 24 June 2024
Published in: International Journal for Numerical Methods in Engineering (Search for Journal in Brave)
finite straincrystal plasticityintegration algorithmmultisurface plasticitySchmid's lawrate-independent framework
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- An efficient approach for numerical treatment of some inequalities in solid mechanics on examples of Kuhn-Tucker and Signorini-Fichera conditions
- Characterization of macroscopic tensile strength of polycrystalline metals with two-scale finite element analysis
- Ellipticity loss analysis for tangent moduli deduced from a large strain elastic-plastic self-consistent model
- Computational aspects of tangent moduli tensors in rate-independent crystal elastoplasticity
- Fast texture updates in fcc polycrystal plasticity based on a linear active-set-estimate of the lattice spin
- Objectivity of incremental constitutive relations over finite time steps in computational finite deformation analysis
- Nonlinear complementarity as unconstrained and constrained minimization
- Forming limits prediction using rate-independent polycrystalline plasticity
- Solution of monotone complementarity problems with locally Lipschitzian functions
- Numerical computation of algorithmic (consistent) tangent moduli in large-strain computational inelasticity
- Numerical concepts for rate-independent single crystal plasticity
- A multilevel finite element method (FE\(^{2}\)) to describe the response of highly nonlinear structures using generalized continua.
- Rate-independent crystalline and polycrystalline plasticity, application to FCC materials
- \(FE^2\) multiscale approach for modelling the elastoviscoplastic behaviour of long fibre SiC/Ti composite materials
- A computational procedure for rate-independent crystal plasticity.
- On precipitate induced hardening in crystal plasticity: algorithms and simulations
- Computational homogenization analysis in finite plasticity. Simulation of texture development in polycrystalline materials
- A framework for numerical integration of crystal elasto-plastic constitutive equations compatible with explicit finite element codes
- A semi-implicit integration scheme for rate independent finite crystal plasticity
- Minimization of functions having Lipschitz continuous first partial derivatives
- Inelastic constitutive relations for solids: An internal-variable theory and its application to metal plasticity
- Constitutive analysis of elastic-plastic crystals at arbitrary strain
- Crystal Plasticity
- Latent hardening in single crystals. II. Analytical characterization and predictions
- Non-smooth multisurface plasticity and viscoplasticity. Loading/unloading conditions and numerical algorithms
- Finite rotation effects in numerical integration of rate constitutive equations arising in large-deformation analysis
- Finite Plastic Deformation of Crystalline Solids
- Discrete micromechanics of elastoplastic crystals
- A special newton-type optimization method
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