The multiple fatigue crack propagation modelling in nonhomogeneous structures using the DBEM
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Publication:1634659
DOI10.1016/j.enganabound.2018.10.026zbMath1404.74192OpenAlexW2901480002WikidataQ128958517 ScholiaQ128958517MaRDI QIDQ1634659
Heider de Castro e Andrade, Edson Denner Leonel
Publication date: 18 December 2018
Published in: Engineering Analysis with Boundary Elements (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.enganabound.2018.10.026
Brittle fracture (74R10) Boundary element methods applied to problems in solid mechanics (74S15) Boundary element methods for boundary value problems involving PDEs (65N38)
Related Items (9)
Blended isogeometric-finite element analysis for large displacements linear elastic fracture mechanics ⋮ Hybrid meshless displacement discontinuity method (MDDM) in fracture mechanics: static and dynamic ⋮ An enriched dual boundary element method formulation for linear elastic crack propagation ⋮ Stress intensity factor for bonded dissimilar materials weakened by multiple cracks ⋮ A NURBS-discontinuous and enriched isogeometric boundary element formulation for two-dimensional fatigue crack growth ⋮ One step forward towards the full integration of BEM and CAD software: an effective adaptive approach ⋮ Constitutive relation error formalism applied to the solution of inverse problems using the BEM ⋮ The mechanical modelling of nonhomogeneous reinforced structural systems by a coupled BEM formulation ⋮ A new approach for dynamic crack propagation modeling based on meshless Galerkin method and visibility based criterion
Uses Software
Cites Work
- Unnamed Item
- Boundary element analysis of structures with bridged interfacial cracks
- Boundary element simulation of fatigue crack growth in multi-site damage
- Three-dimensional crack growth with \(hp\)-generalized finite element and face offsetting methods
- An efficient meshless method for fracture analysis of cracks
- Fatigue crack growth simulations of homogeneous and bi-material interfacial cracks using element free Galerkin method
- Dual boundary element analysis of fatigue crack growth, interaction and linkup
- Crack propagation in non-homogenous materials: evaluation of mixed-mode SIFs, T-stress and kinking angle using a variant of EFG method
- 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
- Investigation of mixed-mode stress intensity factors for nonhomogeneous materials using an interaction integral method
- Fracture modeling of isotropic functionally graded materials by the numerical manifold method
- Simulation of fatigue crack growth at plastically mismatched bi-material interfaces
- A self‐adaptive co‐ordinate transformation for efficient numerical evaluation of general boundary element integrals
- The dual boundary element method: Effective implementation for crack problems
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