An adaptive continuous-discontinuous approach for the analysis of phase field fracture using mesh refinement and coarsening schemes and octree-based trimmed hexahedral meshes
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Publication:6661934
DOI10.1007/s00466-024-02472-6MaRDI QIDQ6661934
Publication date: 13 January 2025
Published in: Computational Mechanics (Search for Journal in Brave)
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Cites Work
- A finite element scheme with the aid of a new carving technique combined with smoothed integration
- A phase field model for rate-independent crack propagation: robust algorithmic implementation based on operator splits
- Adaptive refinement for phase-field models of brittle fracture based on Nitsche's method
- The variational approach to fracture
- A comparative study on finite element methods for dynamic fracture
- A primal-dual active set method and predictor-corrector mesh adaptivity for computing fracture propagation using a phase-field approach
- Multidimensional stability analysis of the phase-field method for fracture with a general degradation function and energy split
- Revisiting brittle fracture as an energy minimization problem
- Robust numerical implementation of non-standard phase-field damage models for failure in solids
- A local moving extended phase field method (LMXPFM) for failure analysis of brittle materials
- Phase-field modeling of brittle fracture using an efficient virtual element scheme
- Adaptive phase-field modeling of brittle fracture using the scaled boundary finite element method
- A review on phase-field models of brittle fracture and a new fast hybrid formulation
- Efficient isoparametric trimmed-hexahedral elements with explicit shape functions
- A combined adaptive phase field and discrete cutting method for the prediction of crack paths
- A global-local approach for hydraulic phase-field fracture in poroelastic media
- A combined XFEM phase-field computational model for crack growth without remeshing
- Mesh refinement procedures for the phase field approach to brittle fracture
- Numerical simulation of crack propagation in shell structures using interface shell elements
- Adaptive phase field method using novel physics based refinement criteria
- CIPFAR: a 3D unified numerical framework for the modeling of ductile fracture based on the phase field model and adaptive remeshing
- A hybrid XFEM-phase field (\textit{Xfield}) method for crack propagation in brittle elastic materials
- A new polyhedral element for the analysis of hexahedral-dominant finite element models and its application to nonlinear solid mechanics problems
- An adaptive multiscale phase field method for brittle fracture
- Phase-field modeling of brittle fracture with multi-level \textit{hp}-FEM and the finite cell method
- An assessment of the phase field formulation for crack growth
- Three-dimensional phase-field modeling of brittle fracture using an adaptive octree-based scaled boundary finite element approach
- A displacement-based finite element formulation for general polyhedra using harmonic shape functions
- A medial-axis-based model for propagating cracks in a regularised bulk
- A new finite element approach for solving three-dimensional problems using trimmed hexahedral elements
- Thermodynamically consistent phase-field models of fracture: Variational principles and multi-field FE implementations
- Gradient-enhanced damage modelling of high-cycle fatigue
- A new 3D finite element for adaptive h‐refinement in 1‐irregular meshes
- VI. The phenomena of rupture and flow in solids
- A novel adaptive mesh refinement scheme for the simulation of phase-field fracture using trimmed hexahedral meshes
- A hybrid adaptive finite element phase-field method for quasi-static and dynamic brittle fracture
- An optimization-based phase-field method for continuous-discontinuous crack propagation
- A new strategy for finite-element analysis of shell structures using trimmed quadrilateral shell meshes: a paving and cutting algorithm and a pentagonal shell element
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