Quasi-brittle damage modeling based on incremental energy relaxation combined with a viscous-type regularization
From MaRDI portal
Publication:1790162
DOI10.1007/s00161-018-0669-zzbMath1396.74091OpenAlexW2801069317WikidataQ59767826 ScholiaQ59767826MaRDI QIDQ1790162
J. Mosler, K. Langenfeld, Philipp Junker
Publication date: 2 October 2018
Published in: Continuum Mechanics and Thermodynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00161-018-0669-z
Related Items
A micromorphic approach for gradient-enhanced anisotropic ductile damage, A large strain anisotropic ductile damage model -- effective driving forces and gradient-enhancement of damage vs. plasticity, Efficient and robust numerical treatment of a gradient‐enhanced damage model at large deformations, How regularization concepts interfere with (quasi-)brittle damage: a comparison based on a unified variational framework, Continuum Damage Mechanics—Modelling and Simulation, A single Gauss point continuum finite element formulation for gradient-extended damage at large deformations, Computational shape optimisation for a gradient-enhanced continuum damage model
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- On evolving deformation microstructures in non-convex partially damaged solids
- Towards variational constitutive updates for non-associative plasticity models at finite strain: models based on a volumetric-deviatoric split
- A computational framework of configurational-force-driven brittle fracture based on incremental energy minimization
- On the implementation of rate-independent standard dissipative solids at finite strain-variational constitutive updates
- Variationally consistent modeling of finite strain plasticity theory with nonlinear kinematic hardening
- A phase field model for rate-independent crack propagation: robust algorithmic implementation based on operator splits
- A novel homogenization method for phase field approaches based on partial rank-one relaxation
- A maximum-dissipation principle in generalized plasticity
- Material rate dependence and mesh-sensitivity in localization problems
- A strain-based plastic viscous-damage model for massive concrete structures
- An analysis of strong discontinuities induced by strain-softening in rate-independent inelastic solids
- Damage model with delay effect. Analytical and numerical studies of the evolution of the characteristic damage length.
- Numerical experiments in revisited brittle fracture
- The variational formulation of viscoplastic constitutive updates
- Nonconvex energy minimization and dislocation structures in ductile single crystals
- A relaxation-based approach to damage modeling
- Deriving new evolution equations for microstructures via relaxation of variational incremental problems
- The principle of the minimum of the dissipation potential for non-isothermal processes
- Combining phase field approach and homogenization methods for modelling phase transformation in elastoplastic media
- Explicit dynamics with a non-local damage model using the thick level set approach
- Application of Relaxation Techniques to Nonconvex Isotropic Damage Model
- Incremental Variational Principles in Damage Mechanics
- Thermodynamically consistent phase-field models of fracture: Variational principles and multi-field FE implementations
- A regularization framework for damage-plasticity models via gradient enhancement of the free energy
- Finite-deformation irreversible cohesive elements for three-dimensional crack-propagation analysis
- Extended finite element method for three-dimensional crack modelling
- Non–convex potentials and microstructures in finite–strain plasticity
- A simple model for viscous regularization of elasto-plastic constitutive laws with softening
- On the relation between the principle of maximum dissipation and inelastic evolution given by dissipation potentials
- Fracture Mechanics
- A critical comparison of nonlocal and gradient-enhanced softening continua
