A multiscale approach for modeling progressive damage of composite materials using fast Fourier transforms
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Publication:741961
DOI10.1016/j.cma.2013.10.017zbMath1295.74006OpenAlexW1980191464MaRDI QIDQ741961
Publication date: 16 September 2014
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.2013.10.017
continuum damage mechanicsfast Fourier transformscomposite materialsmultiscale analysiscomputational homogenization
Random materials and composite materials (74A40) Homogenization in equilibrium problems of solid mechanics (74Q05) Numerical methods for discrete and fast Fourier transforms (65T50) Brittle damage (74R05)
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Cites Work
- On the computation of the macroscopic tangent for multiscale volumetric homogenization problems
- The effective mechanical properties of nonlinear isotropic composites
- Multiscale methods for composites: A review
- An introduction to computational micromechanics.
- Strain- and stress-based continuum damage models. I. Formulation
- A variational approach to the theory of the elastic behaviour of multiphase materials
- Acceleration waves in solids
- A note on some features of the theory of localization of deformation
- Bounds for effective elastic moduli of disordered materials
- Numerical computation of algorithmic (consistent) tangent moduli in large-strain computational inelasticity
- Computational plasticity for composite structures based on mathematical homogenization: Theory and practice
- Nonuniform transformation field analysis
- \(FE^2\) multiscale approach for modelling the elastoviscoplastic behaviour of long fibre SiC/Ti composite materials
- Exact second-order estimates for the effective mechanical properties of nonlinear composite materials.
- A numerical method for computing the overall response of nonlinear composites with complex microstructure
- Computational micro-to-macro transitions of discretized microstructures undergoing small strains
- Effective properties of composite materials with periodic microstructure: A computational approach
- Prediction of the mechanical behavior of nonlinear heterogeneous systems by multi-level finite element modeling
- Elastic properties of reinforced solids: Some theoretical principles
- A marching cubes based failure surface propagation concept for three-dimensional finite elements with non-planar embedded strong discontinuities of higher-order kinematics
- The determination of the elastic field of an ellipsoidal inclusion, and related problems
- Coarse-graining of multiscale crack propagation
- Multiscale aggregating discontinuities: A method for circumventing loss of material stability
- Transformation field analysis of inelastic composite materials
- Variational Principles for Scattering Processes. I
- An approach to micro-macro modeling of heterogeneous materials
- Towards a micromechanics-based inelastic and damage modeling of composites
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