FFT phase-field model combined with cohesive composite voxels for fracture of composite materials with interfaces
From MaRDI portal
Publication:2666107
DOI10.1007/s00466-021-02041-1zbMath1490.74093OpenAlexW3164149411WikidataQ113326680 ScholiaQ113326680MaRDI QIDQ2666107
Publication date: 22 November 2021
Published in: Computational Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00466-021-02041-1
fast Fourier transformlaminated compositefrictional cohesive zone modelvariational phase-field fracture model
Brittle fracture (74R10) Composite and mixture properties (74E30) Spectral and related methods applied to problems in solid mechanics (74S25)
Related Items (1)
Uses Software
Cites Work
- Filtering material properties to improve FFT-based methods for numerical homogenization
- Phase field approximation of dynamic brittle fracture
- A phase field model for rate-independent crack propagation: robust algorithmic implementation based on operator splits
- Combining Galerkin approximation techniques with the principle of Hashin and Shtrikman to derive a new FFT-based numerical method for the homogenization of composites
- The variational approach to fracture
- Regularized formulation of the variational brittle fracture with unilateral contact: numerical experiments
- Numerical experiments in revisited brittle fracture
- Multi-phase-field modeling of anisotropic crack propagation for polycrystalline materials
- A primal-dual active set method and predictor-corrector mesh adaptivity for computing fracture propagation using a phase-field approach
- A numerical method for computing the overall response of nonlinear composites with complex microstructure
- BEM analysis of crack onset and propagation along fiber-matrix interface under transverse tension using a linear elastic-brittle interface model
- Accelerating a FFT-based solver for numerical homogenization of periodic media by conjugate gradients
- Revisiting brittle fracture as an energy minimization problem
- A phase field formulation for hydrogen assisted cracking
- Phase-field modelling of interface failure in brittle materials
- On penalization in variational phase-field models of brittle fracture
- A review on phase-field models of brittle fracture and a new fast hybrid formulation
- A FFT solver for variational phase-field modeling of brittle fracture
- A phase-field method for computational modeling of interfacial damage interacting with crack propagation in realistic microstructures obtained by microtomography
- An FFT-based spectral solver for interface decohesion modelling using a gradient damage approach
- An adaptive space-time phase field formulation for dynamic fracture of brittle shells based on LR NURBS
- Fast implicit solvers for phase-field fracture problems on heterogeneous microstructures
- Revisiting the problem of a crack impinging on an interface: a modeling framework for the interaction between the phase field approach for brittle fracture and the interface cohesive zone model
- The composite voxel technique for inelastic problems
- FFT-based solver for higher-order and multi-phase-field fracture models applied to strongly anisotropic brittle materials
- An FFT-based Galerkin method for homogenization of periodic media
- Numerical implementation of the variational formulation for quasi-static brittle fracture
- Use of composite voxels in FFT-based homogenization
- A phase-field model for cohesive fracture
- Thermodynamically consistent phase-field models of fracture: Variational principles and multi-field FE implementations
- FFT‐based homogenization for microstructures discretized by linear hexahedral elements
- An Adaptive Finite Element Approximation of a Variational Model of Brittle Fracture
- Combining interface damage and friction in a cohesive‐zone model
This page was built for publication: FFT phase-field model combined with cohesive composite voxels for fracture of composite materials with interfaces
