\(J\)-integral and crack driving force in elastic-plastic materials
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Publication:731118
DOI10.1016/j.jmps.2008.04.003zbMath1171.74429OpenAlexW2023684664MaRDI QIDQ731118
Publication date: 1 October 2009
Published in: Journal of the Mechanics and Physics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jmps.2008.04.003
configurational forcesplasticity\(J\)-integralelastic-plastic materialenergy release ratecrack-tip shielding
Related Items (17)
Variational formulation for dissipative continua and an incremental J-integral ⋮ Atomistic potentials based energy flux integral criterion for dynamic adiabatic shear banding ⋮ Energy dissipation and contour integral characterizing fracture behavior of incremental plasticity ⋮ Configurational forces for quasi-incompressible large strain electro-viscoelasticity -- application to fracture mechanics ⋮ Prediction of mode I crack growth resistance based on a comparative investigation of \(J\)-integral and energy dissipation rate concept ⋮ An implicit adaptive node-splitting algorithm to assess the failure mechanism of inelastic elastomeric continua ⋮ Dual approach in non-linear fracture mechanics ⋮ On curved crack paths in finite strain fracture mechanics ⋮ A configurational force driven cracking particle method for modelling crack propagation in 2D ⋮ Relationship between incremental \(J\) integral and crack tip opening angle in elastic plastic materials ⋮ On the role of material dissipation for the crack-driving force ⋮ A field theory of distortion incompatibility for coupled fracture and plasticity ⋮ Strategies for planar crack propagation based on the concept of material forces ⋮ A theoretical model for tissue growth in confined geometries ⋮ Semi-analytical approaches to assess the crack driving force in periodically heterogeneous elastic materials ⋮ Effect of thermal residual stresses on ductile-to-brittle transition of a bi-material specimen by using the CAFE method ⋮ On the sensitivity of the rate of global energy dissipation due to configurational changes
Cites Work
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- The virtual crack extension method for nonlinear material behavior
- Eshelby stress in elastoplasticity and ductile fracture
- Eshelby's stress tensors in finite elastoplasticity
- Configurational forces and the basic laws for crack propagation.
- Use of material forces in adaptive finite element methods
- Inhomogeneity effects on the crack driving force in elastic and elastic--plastic materials.
- The nature of configurational forces
- Crack tip shielding or anti-shielding due to smooth and discontinuous material inhomogeneities
- Configuration forces as basic concepts of continuum physics
- A material force method for inelastic fracture mechanics
- On configurational forces in the context of the finite element method
- Studies in elastic fracture mechanics based on the material force method
- Mechanics in Material Space
- VI. The phenomena of rupture and flow in solids
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