Dynamic crack face contact and propagation simulation based on the scaled boundary finite element method
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Publication:2237786
DOI10.1016/j.cma.2021.114044zbMath1502.74100OpenAlexW3185109236MaRDI QIDQ2237786
Publication date: 28 October 2021
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.2021.114044
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Cites Work
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- Effect of friction of the crack faces for a linear crack under an oblique harmonic loading
- Variational formulation and nonsmooth optimization algorithms in elastodynamic contact problems for cracked body
- Influence of the water pressure distribution along crack faces on seismic fracture modeling of a dam-reservoir-foundation system
- A virtual work derivation of the scaled boundary finite-element method for elastostatics
- A scaled boundary polygon formulation for elasto-plastic analyses
- The scaled boundary finite-element method - alias consistent infinitesimal finite-element cell method - for elastodynamics
- Dynamic fracture analysis of the soil-structure interaction system using the scaled boundary finite element method
- A high-order finite element technique with automatic treatment of stress singularities by semi-analytical enrichment
- On mass lumping and explicit dynamics in the scaled boundary finite element method
- A stabilized Lagrange multiplier method for the finite element approximation of contact problems in elastostatics
- A scaled boundary finite element method for modelling crack face contact problems
- A scaled boundary finite element based node-to-node scheme for 2D frictional contact problems
- Polygon scaled boundary finite elements for crack propagation modelling
- A high-order approach for modelling transient wave propagation problems using the scaled boundary finite element method
- DYNAMIC FRACTURE USING ELEMENT-FREE GALERKIN METHODS
- Use of higher-order shape functions in the scaled boundary finite element method
- Crack face contact in X-FEM using a segment-to-segment approach
- A continued-fraction-based high-order transmitting boundary for wave propagation in unbounded domains of arbitrary geometry
- A solution method for dynamic contact problems
- On convergence of the penalty method for a static unilateral contact problem with nonlocal friction in electro-elasticity
- General Spatial Dynamic Problem for an Elliptic Crack under the Action of a Normal Shear Wave, with Consideration for the Contact Interaction of the Crack Faces
- Computational Contact Mechanics
