Approaches to dynamic fracture modelling at finite deformations
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Publication:731173
DOI10.1016/j.jmps.2007.05.001zbMath1171.74311OpenAlexW2042458769MaRDI QIDQ731173
Ragnar Larsson, Martin Fagerström
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.2007.05.001
Finite element methods applied to problems in solid mechanics (74S05) Theories of fracture and damage (74A45)
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Cites Work
- On material forces and finite element discretizations
- Steady growth of a crack with a rate and temperature sensitive cohesive zone
- The elastic energy-momentum tensor
- Interpretation of the Rice integral in continuum mechanics
- The partition of unity finite element method: basic theory and applications
- A study of dynamic crack growth in elastic materials using a cohesive zone model
- An analysis of strong discontinuities in multiplicative finite strain plasticity and their relation with the numerical simulation of strain localization in solids
- Computational modelling of impact damage in brittle materials
- Embedded localization band in undrained soil based on regularized strong discontinuity -- theory and FE-analysis
- A cohesive segments method for the simulation of crack growth
- Modeling quasi-static crack growth with the extended finite element method. I: Computer implementation
- Modeling quasi-static crack growth with the extended finite element method. II: Numerical applications
- Configurational forces and the basic laws for crack propagation.
- Application of material forces to hyperelastostatic fracture mechanics. I: Continuum mechanical setting
- The nature of configurational forces
- Configuration forces as basic concepts of continuum physics
- Configurational forces and a constitutive theory for crack propagation that allows for kinking and curving
- A finite element method for the simulation of strong and weak discontinuities in solid mechanics
- A new method for modelling cohesive cracks using finite elements
- A framework for fracture modelling based on the material forces concept with XFEM kinematics
- On the numerical modelling of quasi-static crack growth in linear elastic fracture mechanics
- Theory and numerics for finite deformation fracture modelling using strong discontinuities
- A consistent characteristic length for smeared cracking models
- Elastic crack growth in finite elements with minimal remeshing
- New crack‐tip elements for XFEM and applications to cohesive cracks
- Dynamic crack propagation based on loss of hyperbolicity and a new discontinuous enrichment
- A consistent geometrically non-linear approach for delamination
- A finite element method for crack growth without remeshing
- The force on an elastic singularity
- Three-dimensional embedded discontinuity model for brittle fracture
- Application of material forces to hyperelastostatic fracture mechanics. II: Computational setting.
