Modelling and simulation of coupled fluid transport and time-dependent fracture in fibre-reinforced hydrogel composites
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Publication:2072731
DOI10.1016/j.cma.2021.114470OpenAlexW4206801976MaRDI QIDQ2072731
Songyun Ma, Dongxu Liu, Huang Yuan, Bernd Markert
Publication date: 26 January 2022
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.2021.114470
delayed fracturecrack propagationanisotropic hydrogel compositesnonlocal damage modellingporo-visco-hyperelasticity
Cites Work
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- A nonlocal continuum damage mechanics approach to simulation of creep fracture in ice sheets
- Robust numerical calculation of tangent moduli at finite strains based on complex-step derivative approximation and its application to localization analysis
- A gradient-enhanced large-deformation continuum damage model for fibre-reinforced materials
- A biphasic continuum approach for viscoelastic high-porosity foams: comprehensive theory, numerics, and application
- A nonlinear constitutive model of unidirectional natural fiber reinforced composites considering moisture absorption
- A theory of coupled diffusion and large deformation in polymeric gels
- Mullins' effect and the strain amplitude dependence of the storage modulus
- Algorithms for static and dynamic multiplicative plasticity that preserve the classical return mapping schemes of the infinitesimal theory
- Quasi-incompressible finite elasticity in principal stretches. Continuum basis and numerical algorithms
- A theory of finite viscoelasticity and numerical aspects
- A stabilized finite element method for finite-strain three-field poroelasticity
- A macroscopic finite strain model for cellular polymers.
- A phase-field approach embedded in the theory of porous media for the description of dynamic hydraulic fracturing. II: The crack-opening indicator
- A theory for fracture of polymeric gels
- Gradient damage \textit{vs} phase-field approaches for fracture: similarities and differences
- A phase-field model for fracture of unidirectional fiber-reinforced polymer matrix composites
- A phase-field approach embedded in the theory of porous media for the description of dynamic hydraulic fracturing
- Numerical aspects of anisotropic failure in soft biological tissues favor energy-based criteria: a rate-dependent anisotropic crack phase-field model
- On the implementation of finite deformation gradient-enhanced damage models
- A generalized orthotropic hyperelastic material model with application to incompressible shells
- A general polyconvex strain-energy function for fiber-reinforced materials
- Numerical aspects associated with the implementation of a finite strain, elasto-viscoelastic-viscoplastic constitutive theory in principal stretches
- The stress field near the tip of a plane stress crack in a gel consisting of chemical and physical cross-links
