Peridynamics for mechanism analysis of soil desiccation cracking: coupled hygro-mechanical model, staggered and monolithic solution
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Publication:2686897
DOI10.1016/j.cma.2023.115896OpenAlexW4317677349MaRDI QIDQ2686897
Qing Zhang, Yang Lu, Panyong Liu, Erdogan Madenci, Xin Gu, XiaoZhou Xia
Publication date: 1 March 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.2023.115896
staggered schemeperidynamicsmonolithic schemecontrolling number of bond breakagehygro-mechanical couplesoil desiccation cracking
Cites Work
- A peridynamic formulation of pressure driven convective fluid transport in porous media
- A peridynamic formulation for transient heat conduction in bodies with evolving discontinuities
- Implementing peridynamics within a molecular dynamics code
- The effect of long-range forces on the dynamics of a bar
- The peridynamic formulation for transient heat conduction
- Extended meshfree methods without branch enrichment for cohesive cracks
- Thermomechanics of drying processes.
- Peridynamic formulations enriched with bond rotation effects
- Improved one-point quadrature algorithms for two-dimensional peridynamic models based on analytical calculations
- Reformulation of elasticity theory for discontinuities and long-range forces
- Static solution of crack propagation problems in peridynamics
- A modified conjugated bond-based peridynamic analysis for impact failure of concrete gravity dam
- Hybrid FEM and peridynamic simulation of hydraulic fracture propagation in saturated porous media
- Peridynamic states and constitutive modeling
- Peridynamic differential operator and its applications
- Linear theory of nonlocal elasticity and dispersion of plane waves
- On nonlocal elasticity
- A hybrid meshfree discretization to improve the numerical performance of peridynamic models
- Peridynamic Theory and Its Applications
- THE PERIDYNAMIC EQUATION AND ITS SPATIAL DISCRETISATION
- Elastic crack growth in finite elements with minimal remeshing
- Element‐free Galerkin methods
- A finite element method for crack growth without remeshing
- Asymptotically Compatible Schemes for Robust Discretization of Parametrized Problems with Applications to Nonlocal Models
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