A zero-thickness cohesive element-based numerical manifold method for rock mechanical behavior with micro-Voronoi grains
From MaRDI portal
Publication:1799847
DOI10.1016/j.enganabound.2018.08.005zbMath1403.74059OpenAlexW2890255642WikidataQ129277993 ScholiaQ129277993MaRDI QIDQ1799847
Xiangyu Xu, Zhijun Wu, Yongtao Yang, Quanshen Liu
Publication date: 19 October 2018
Published in: Engineering Analysis with Boundary Elements (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.enganabound.2018.08.005
Finite element methods applied to problems in solid mechanics (74S05) Soil and rock mechanics (74L10) Geological problems (86A60)
Related Items
A simple particle-spring method for capturing the continuous-discontinuous processes of brittle materials, Modelling the stability of a soil-rock-mixture slope based on the digital image technology and strength reduction numerical manifold method, Influence of soil non-homogeneity on shear band evolution investigated by the numerical manifold method combined with the assumed enhanced strain method, Determination of critical slip surface and safety factor of slope using the vector sum numerical manifold method and MAX-MIN ant colony optimization algorithm, An extended numerical manifold method for two-phase seepage-stress coupling process modelling in fractured porous medium, Fracturing failure simulations of rock discs with pre-existing cracks by numerical manifold method, Reformulation of dynamic crack propagation using the numerical manifold method, Investigation of thermal-induced damage in fractured rock mass by coupled FEM-DEM method, Grout penetration process simulation and grouting parameters analysis in fractured rock mass using numerical manifold method, Steady seepage analysis in soil-rock-mixture slope using the numerical manifold method, A new hysteretic damping model and application for the combined finite-discrete element method (FDEM), A high-order numerical manifold method with continuous stress/strain field, Enriched mixed numerical manifold formulation with continuous nodal gradients for dynamics of fractured poroelasticity, A mixed three-node triangular element with continuous nodal stress for fully dynamic consolidation of porous media, Numerical manifold computational homogenization for hydro-dynamic analysis of discontinuous heterogeneous porous media, A mass lumping scheme for the 10-node tetrahedral element, Computation of T-stresses for multiple-branched and intersecting cracks with the numerical manifold method, Mathematical cover refinement of the numerical manifold method for the stability analysis of a soil-rock-mixture slope, A high-order three dimensional numerical manifold method with continuous stress/strain field, Modeling unconfined seepage flow in soil-rock mixtures using the numerical manifold method, Micro-mechanism study on rock breaking behavior under water jet impact using coupled SPH-FEM/DEM method with Voronoi grains, Stability analysis of soil-rock-mixture slopes using the numerical manifold method, On the implementation of a hydro-mechanical coupling model in the numerical manifold method
Cites Work
- Unnamed Item
- Modeling complex crack problems using the numerical manifold method
- Numerical analysis of 2-D crack propagation problems using the numerical manifold method
- The numerical manifold method for elastic wave propagation in rock with time-dependent absorbing boundary conditions
- A strong discontinuity approach on multiple levels to model solids at failure
- Phase field approximation of dynamic brittle fracture
- A phase-field description of dynamic brittle fracture
- Continuum approach to material failure in strong discontinuity settings
- FEM-remeshing technique applied to crack growth problems
- Evolutionary characteristic length method for smeared cracking finite element models
- Numerical modelling of crack propagation: automatic remeshing and comparison of different criteria.
- The combination of the boundary element method and the numerical manifold method for potential problems
- Thermal shock analysis of 2D cracked solids using the numerical manifold method and precise time integration
- Modelling transient heat conduction of granular materials by numerical manifold method
- The design and analysis of the generalized finite element method
- Three-dimensional finite elements with embedded strong discontinuities for the analysis of solids at failure in the finite deformation range
- A modification of the phase-field model for mixed mode crack propagation in rock-like materials
- A 3D distinct lattice spring model for elasticity and dynamic failure
- New strategies for some issues of numerical manifold method in simulation of crack propagation
- Brittle and ductile failure of rocks: Embedded discontinuity approach for representing mode I and mode II failure mechanisms
- Finite elements with displacement interpolated embedded localization lines insensitive to mesh size and distortions
- Two dimensional discontinuous deformation analysis
- A consistent characteristic length for smeared cracking models
- Development of high-order manifold method
- Elastic crack growth in finite elements with minimal remeshing
- Element‐free Galerkin methods
- The generalized finite element method
