Modeling of crack growth through particulate clusters in brittle matrix by symmetric-Galerkin boundary element method
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Publication:712380
DOI10.1007/s10704-006-0047-xzbMath1197.74190OpenAlexW2060395651MaRDI QIDQ712380
R. Kitey, T. Kaplan, Hareesh V. Tippur, Anh-Vũ Phan
Publication date: 28 October 2010
Published in: International Journal of Fracture (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10704-006-0047-x
crack growthparticulate compositessymmetric-Galerkin boundary element methodcrack deflectioncrack-inclusion interactionmatrix toughening
Related Items (8)
Cohesive-zone-model formulation and implementation using the symmetric Galerkin boundary element method for homogeneous solids ⋮ SGBEM modeling of fatigue crack growth in particulate composites ⋮ Dynamic effects of inclusions and microcracks on a main crack ⋮ Optimizations of a fast multipole symmetric Galerkin boundary element method code ⋮ Analysis of cracked transversely isotropic and inhomogeneous solids by a special BIE formulation ⋮ Predicting crack propagation with peridynamics: a comparative study ⋮ Dynamic crack propagation in matrix involving inclusions by a time-domain BEM ⋮ Modeling multicrack propagation by the fast multipole symmetric Galerkin BEM
Cites Work
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- The interaction between a crack and an inclusion
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- Interaction Between a Circular Inclusion and an Arbitrarily Oriented Crack
- Crack tip finite elements are unnecessary
- On the use of isoparametric finite elements in linear fracture mechanics
- Three-dimensional interaction between a crack front and particles
- Crack Tip Interpolation, Revisited
- HYPERSINGULAR INTEGRALS: HOW SMOOTH MUST THE DENSITY BE?
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