Hydro-mechanical multiscale numerical manifold model of the three-dimensional heterogeneous poro-elasticity
From MaRDI portal
Publication:2110068
DOI10.1016/j.apm.2022.06.014zbMath1505.74049OpenAlexW4282963207MaRDI QIDQ2110068
Hong Zheng, Wenan Wu, Yinbin Shen, Chi Yuan, Yongtao Yang, Ning Zhang
Publication date: 21 December 2022
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2022.06.014
wave propagationnumerical manifold methodmultiscale analysiscomputational homogenizationheterogeneous poro-elasticity
Related Items (3)
An efficient monolithic multiscale numerical manifold model for fully coupled nonlinear saturated porous media ⋮ Investigation of the shear band evolution in soil-rock mixture using the assumed enhanced strain method with the meshes of improved numerical manifold method ⋮ GMLS-based numerical manifold method in mechanical analysis of thin plates with complicated shape or cutouts
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Transient computational homogenization for heterogeneous materials under dynamic excitation
- \(FE^{2}\) computational homogenization for the thermo-mechanical analysis of heterogeneous solids
- On the existence of representative volumes for softening quasi-brittle materials - A failure zone averaging scheme
- Modeling nonlinear phenomena in deforming fluid-saturated porous media using homogenization and sensitivity analysis concepts
- \(FE^2\) multiscale approach for modelling the elastoviscoplastic behaviour of long fibre SiC/Ti composite materials
- Three-dimensional fracture propagation with numerical manifold method
- Hierarchical modeling of heterogeneous solids
- Computational homogenization analysis in finite plasticity. Simulation of texture development in polycrystalline materials
- Variationally derived 3-field finite element formulations for quasistatic poroelastic analysis of hydrated biological tissues
- Enriched mixed finite element models for dynamic analysis of continuous and fractured porous media
- Phase-field modeling of fluid-driven dynamic cracking in porous media
- Enriched three-field numerical manifold formulation for dynamics of fractured saturated porous media
- Hydro-mechanical simulation of the saturated and semi-saturated porous soil-rock mixtures using the numerical manifold method
- Computational homogenization of fully coupled multiphase flow in deformable porous media
- Transient multi-scale analysis with micro-inertia effects using direct FE\(^2\) method
- Enriched mixed numerical manifold formulation with continuous nodal gradients for dynamics of fractured poroelasticity
- Three-dimensional numerical manifold formulation with continuous nodal gradients for dynamics of elasto-plastic porous media
- Numerical manifold computational homogenization for hydro-dynamic analysis of discontinuous heterogeneous porous media
- Accelerating multiscale finite element simulations of history-dependent materials using a recurrent neural network
- Diffuse interface modeling and variationally consistent homogenization of fluid transport in fractured porous media
- Hydraulic fracturing modeling using the enriched numerical manifold method
- A mixed three-node triangular element with continuous nodal stress for fully dynamic consolidation of porous media
- A Lagrangian-based SPH-DEM model for fluid-solid interaction with free surface flow in two dimensions
- Homogenization of coupled flow and deformation in a porous material
- A phase-field approach embedded in the theory of porous media for the description of dynamic hydraulic fracturing
- Homogenization of the Navier-Stokes equations by means of the multi-scale virtual power principle
- An enriched-FEM technique for numerical simulation of interacting discontinuities in naturally fractured porous media
- Computational homogenization of heterogeneous materials with finite elements
- Multi-scale second-order computational homogenization of multi-phase materials: a nested finite element solution strategy
- Model reduction in computational homogenization for transient heat conduction
- Multiscale modeling of coupled thermo-hydro-mechanical analysis of heterogeneous porous media
- Computational homogenization of uncoupled consolidation in micro-heterogeneous porous media
- Computational homogenization of coupled consolidation problems in micro-heterogeneous porous media
- New strategies for some issues of numerical manifold method in simulation of crack propagation
- Multi-scale computational homogenization-localization for propagating discontinuities using X-FEM
- The extended/generalized finite element method: An overview of the method and its applications
- Numerical manifold method for dynamic nonlinear analysis of saturated porous media
- Multiscale Finite Element Methods
- Computational homogenization for heat conduction in heterogeneous solids
- Evaluation of three‐ and two‐field finite element methods for the dynamic response of saturated soil
- A numerical two-scale homogenization scheme: the FE2-method
- Cracking particles: a simplified meshfree method for arbitrary evolving cracks
- A fully coupled dynamic model for two-phase fluid flow in deformable porous media
This page was built for publication: Hydro-mechanical multiscale numerical manifold model of the three-dimensional heterogeneous poro-elasticity
