Mesolevel modeling of failure in composite laminates: constitutive, kinematic and algorithmic aspects
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Publication:503878
DOI10.1007/s11831-012-9076-yzbMath1354.74015OpenAlexW2020711552WikidataQ113323873 ScholiaQ113323873MaRDI QIDQ503878
Publication date: 24 January 2017
Published in: Archives of Computational Methods in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11831-012-9076-y
Finite element methods applied to problems in solid mechanics (74S05) Composite and mixture properties (74E30) Random materials and composite materials (74A40) Brittle damage (74R05)
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Uses Software
Cites Work
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- High-fidelity simulations of multiple fracture processes in a laminated composite in tension
- An augmented finite element method for modeling arbitrary discontinuities in composite materials
- A three-dimensional self-adaptive cohesive zone model for interfacial delamination
- Multiscale failure modeling of concrete: micromechanical modeling, discontinuous homogenization and parallel computations
- Mixed mode cohesive law
- Multiscale methods for composites: A review
- Composite layered materials: anisotropic nonlocal damage models
- A phantom node formulation with mixed mode cohesive law for splitting in laminates
- A procedure for superposing linear cohesive laws to represent multiple damage mechanisms in the fracture of composites
- An incremental approach to the solution of snapping and buckling problems
- Computational inelasticity
- The partition of unity finite element method: basic theory and applications
- A physically based continuum damage mechanics model for thin laminated composite structures.
- Numerical assessment of delamination in fibre metal laminates
- On the discrete constitutive models induced by strong discontinuity kinematics and continuum constitutitive equations
- Cohesive models for damage evolution in laminated composites
- The design and analysis of the generalized finite element method
- A geometrically nonlinear FE approach for the simulation of strong and weak discontinuities
- A finite element method for the simulation of strong and weak discontinuities in solid mechanics
- A new method for modelling cohesive cracks using finite elements
- Mesh-independent matrix cracking and delamination modeling in laminated composites
- Considerations for the application and numerical implementation of strain hardening with the hoffman yield criterion
- An improved cohesive element for shell delamination analyses
- A finite element method for the computational modelling of cohesive cracks
- A method for dynamic crack and shear band propagation with phantom nodes
- Equivalence of Decoupling Schemes and Orthogonal Arrays
- An extended finite element method with analytical enrichment for cohesive crack modeling
- A concise interface constitutive law for analysis of delamination and splitting in composite materials and its application to scaled notched tensile specimens
- A new crack tip element for the phantom‐node method with arbitrary cohesive cracks
- Modeling three-dimensional crack propagation-A comparison of crack path tracking strategies
- A dissipation-based arc-length method for robust simulation of brittle and ductile failure
- Gmsh: A 3-D finite element mesh generator with built-in pre- and post-processing facilities
- An enriched cohesive zone model for delamination in brittle interfaces
- A first-ply failure analysis of composite laminates
- Computation of post-bifurcation and post-failure behavior of strain-softening solids
- Fatigue Failure Criteria for Unidirectional Fiber Composites
- Mechanics of Solid Materials
- Gradient-dependent plasticity: Formulation and algorithmic aspects
- Finite element analysis of fibrous composite structures: A plasticity approach
- Elastic crack growth in finite elements with minimal remeshing
- Viscoplasticity for instabilities due to strain softening and strain-rate softening
- Mesh independent modelling of cracks by using higher order shape functions
- A solid-like shell element allowing for arbitrary delaminations
- Energy release control for numerical simulations of failure in quasi-brittle solids
- On the numerical integration of interface elements
- A consistent geometrically non-linear approach for delamination
- Adaptive hierarchical enrichment for delamination fracture using a decohesive zone model
- A finite element method for crack growth without remeshing
- A critical comparison of nonlocal and gradient-enhanced softening continua
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