Use of composite voxels in FFT-based homogenization

An FE-DMN method for the multiscale analysis of thermomechanical composites ⋮ Multiscale coupling of FFT-based simulations with the LDC approach ⋮ Computational homogenization with million-way parallelism using domain decomposition methods ⋮ FFT phase-field model combined with cohesive composite voxels for fracture of composite materials with interfaces ⋮ FFT-based homogenization at finite strains using composite boxels (ComBo) ⋮ An FFT‐based Galerkin method for the effective permeability of porous material ⋮ Fourier transform approach to numerical homogenization of periodic media containing sharp insulating and superconductive cracks ⋮ On the effectiveness of the Moulinec–Suquet discretization for composite materials ⋮ Superconvergence of the effective Cauchy stress in computational homogenization of inelastic materials ⋮ Voxel‐based finite elements with hourglass control in fast Fourier transform‐based computational homogenization ⋮ Two-stage 2D-to-3d reconstruction of realistic microstructures: implementation and numerical validation by effective properties ⋮ On the micromechanics of deep material networks ⋮ Assessment of the equivalent inclusion method for the numerical homogenization of fibrous composites ⋮ Numerical homogenization by an adaptive Fourier spectral method on non-uniform grids using optimal transport ⋮ A fast numerical method for the conductivity of heterogeneous media with Dirichlet boundary conditions based on discrete sine-cosine transforms ⋮ A review of nonlinear FFT-based computational homogenization methods ⋮ On the accuracy of spectral solvers for micromechanics based fatigue modeling ⋮ An FE-DMN method for the multiscale analysis of short fiber reinforced plastic components ⋮ A simple and flexible model order reduction method for FFT-based homogenization problems using a sparse sampling technique ⋮ A framework for FFT-based homogenization on anisotropic lattices ⋮ Periodic smoothing splines for FFT-based solvers ⋮ Efficient two-scale FE-FFT-based mechanical process simulation of elasto-viscoplastic polycrystals at finite strains ⋮ FFT-based homogenization on periodic anisotropic translation invariant spaces ⋮ A comparative study on low-memory iterative solvers for FFT-based homogenization of periodic media ⋮ Numerical artifacts of fast Fourier transform solvers for elastic problems of multi-phase materials: their causes and reduction methods ⋮ Energy-based comparison between the Fourier-Galerkin method and the finite element method ⋮ A model order reduction method for computational homogenization at finite strains on regular grids using hyperelastic laminates to approximate interfaces ⋮ Adaptation and validation of FFT methods for homogenization of lattice based materials ⋮ The composite voxel technique for inelastic problems ⋮ 3D image-based stochastic micro-structure modelling of foams for simulating elasticity

• FFTW
• FeelMath
• GoTools
• GeoDict
• FFTHomPy

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• Modeling the viscoplastic micromechanical response of two-phase materials using fast Fourier transforms
• Efficient fixed point and Newton-Krylov solvers for FFT-based homogenization of elasticity at large deformations
• Combining Galerkin approximation techniques with the principle of Hashin and Shtrikman to derive a new FFT-based numerical method for the homogenization of composites
• Effective properties of elastic periodic composite media with fibers
• Bounds for effective elastic moduli of disordered materials
• A numerical method for computing the overall response of nonlinear composites with complex microstructure
• Accelerating a FFT-based solver for numerical homogenization of periodic media by conjugate gradients
• A variational approach to the theory of the elastic behaviour of polycrystals
• A polarization-based FFT iterative scheme for computing the effective properties of elastic composites with arbitrary contrast
• The Elastic Moduli of Heterogeneous Materials
• An accelerated FFT algorithm for thermoelastic and non-linear composites
• Elastic crack growth in finite elements with minimal remeshing
• The Theory of Composites