A large strain anisotropic ductile damage model -- effective driving forces and gradient-enhancement of damage vs. plasticity
From MaRDI portal
Publication:6084425
DOI10.1016/j.cma.2023.116284OpenAlexW4385613666MaRDI QIDQ6084425
Publication date: 6 November 2023
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2023.116284
regularisationfinite plasticitygradient-enhanced damagemulti-surface formulationanisotropic ductile damagegradient-enhanced plasticity
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Anisotropic damage with the MCR effect coupled to plasticity
- Theory and numerics of geometrically non-linear gradient plasticity
- A framework for multiplicative elastoplasticity with kinematic hardening coupled to anisotropic damage
- A gradient-enhanced large-deformation continuum damage model for fibre-reinforced materials
- A coupled theory of damage mechanics and finite strain elasto-plasticity. I: Damage and elastic deformations
- A gradient approach to localization of deformation. I. Hyperelastic materials
- Material rate dependence and mesh-sensitivity in localization problems
- Applications of tensor functions in solid mechanics
- A unifying treatise of variational principles for two types of micropolar continua
- An anisotropic ductile damage model based on irreversible thermodynamics.
- Computation of the exponential and other isotropic tensor functions and their derivatives.
- Quasi-brittle damage modeling based on incremental energy relaxation combined with a viscous-type regularization
- An incompatibility tensor-based gradient plasticity formulation -- theory and numerics
- Efficient algorithmic incorporation of tension compression asymmetry into an anisotropic damage model
- Gradient-extended damage analysis with reduced integration-based solid-shells at large deformations
- A thermodynamically consistent finite strain phase field approach to ductile fracture considering multi-axial stress states
- A micromorphic approach for gradient-enhanced anisotropic ductile damage
- A reduced integration-based solid-shell finite element formulation for gradient-extended damage
- A gradient-extended large-strain anisotropic damage model with crack orientation director
- A phase-field formulation for fracture in ductile materials: finite deformation balance law derivation, plastic degradation, and stress triaxiality effects
- An FFT-based spectral solver for interface decohesion modelling using a gradient damage approach
- Computational shape optimisation for a gradient-enhanced continuum damage model
- From diffuse damage to strain localization from an eikonal non-local (ENL) continuum damage model with evolving internal length
- Modeling and simulation of quasi-brittle failure with continuous anisotropic stress-based gradient-enhanced damage models
- Relations between material, intermediate and spatial generalized strain measures for anisotropic multiplicative inelasticity
- On constitutive inequalities for simple materials. I
- Minimization of functions having Lipschitz continuous first partial derivatives
- A large strain gradient-enhanced ductile damage model: finite element formulation, experiment and parameter identification
- Efficient gradient enhancements for plasticity with ductile damage in the logarithmic strain space
- Algorithms for computation of stresses and elasticity moduli in terms of Seth-Hill's family of generalized strain tensors
- Theory and numerics of a thermodynamically consistent framework for geometrically linear gradient plasticity
- A regularization framework for damage-plasticity models via gradient enhancement of the free energy
- Continuum Damage Mechanics—Modelling and Simulation
- Nonlocal Continuum Damage, Localization Instability and Convergence
- Geometrically non‐linear anisotropic inelasticity based on fictitious configurations: Application to the coupling of continuum damage and multiplicative elasto‐plasticity
- A Course on Damage Mechanics
- Formulation and computation of geometrically non-linear gradient damage
- A Simplex Method for Function Minimization
- Theoretical and computational aspects of a thermodynamically consistent framework for geometrically linear gradient damage
- A theoretical and computational framework for anisotropic continuum damage mechanics at large strains.
- On the comparison of two strategies to formulate orthotropic hyperelasticity
- Identification of thermal material parameters for thermo-mechanically coupled material models. Verification and model dependency
This page was built for publication: A large strain anisotropic ductile damage model -- effective driving forces and gradient-enhancement of damage vs. plasticity
