A global model reduction approach for 3D fatigue crack growth with confined plasticity
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Publication:646276
DOI10.1016/j.cma.2010.08.018zbMath1225.74086OpenAlexW1969626904MaRDI QIDQ646276
Publication date: 16 November 2011
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.2010.08.018
Anelastic fracture and damage (74R20) Finite element methods applied to problems in solid mechanics (74S05)
Related Items (12)
Toward an optimal a priori reduced basis strategy for frictional contact problems with LATIN solver ⋮ A multiscale large time increment/FAS algorithm with time-space model reduction for frictional contact problems ⋮ A multiscale mass scaling approach for explicit time integration using proper orthogonal decomposition ⋮ A generalized finite element method with global-local enrichment functions for confined plasticity problems ⋮ A new generalized finite element method for two-scale simulations of propagating cohesive fractures in 3-D ⋮ Adaptive and variable model order reduction method for fracture modelling using explicit time integration ⋮ A two-scale approach for the analysis of propagating three-dimensional fractures ⋮ Space-time proper generalized decompositions for the resolution of transient elastodynamic models ⋮ Model reduction in elastoplasticity: proper orthogonal decomposition combined with adaptive sub-structuring ⋮ A decomposed subspace reduction for fracture mechanics based on the meshfree integrated singular basis function method ⋮ Stable 3D extended finite elements with higher order enrichment for accurate non planar fracture ⋮ 3D volumetric isotopological meshing for finite element and isogeometric based reduced order modeling
Uses Software
Cites Work
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- A two-scale extended finite element method for modelling 3D crack growth with interfacial contact
- The LATIN multiscale computational method and the proper generalized decomposition
- A priori hyperreduction method: an adaptive approach
- Computational inelasticity
- A priori convergence theory for reduced-basis approximations of single-parameter elliptic partial differential equations
- Time-derivative equations for fatigue crack growth in metals
- An efficient `a priori' model reduction for boundary element models
- Variable amplitude fatigue crack growth, experimental results and modeling
- Volumetric harmonic map
- On the a priori model reduction: overview and recent developments
- Dimensional model reduction in non‐linear finite element dynamics of solids and structures
- Three-dimensional crack growth simulation using BEM
- A stable Lagrange multiplier space for stiff interface conditions within the extended finite element method
- A mixed augmented Lagrangian-extended finite element method for modelling elastic–plastic fatigue crack growth with unilateral contact
- Reduced basis approximation anda posteriori error estimation for stress intensity factors
- Three-dimensional non-planar crack growth by a coupled extended finite element and fast marching method
- Hyper-reduction of mechanical models involving internal variables
- A local multigrid X-FEM strategy for 3-D crack propagation
- Mechanics of Solid Materials
- An augmented lagrangian treatment of contact problems involving friction
- Triangular quarter‐point elements as elastic and perfectly‐plastic crack tip elements
- The Element Free Galerkin method for dynamic propagation of arbitrary 3-D cracks
- Computing Discrete Minimal Surfaces and Their Conjugates
- Element‐free Galerkin methods
- Considerations on the spring analogy
- Non-planar 3D crack growth by the extended finite element and level sets-Part I: Mechanical model
- On the Reduced Basis Method
- A finite element method for crack growth without remeshing
- The generalized finite element method
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