Line integration method for treatment of domain integrals in 3D boundary element method for potential and elasticity problems
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Publication:1655219
DOI10.1016/j.enganabound.2016.10.012zbMath1403.74252OpenAlexW2555003029WikidataQ59234484 ScholiaQ59234484MaRDI QIDQ1655219
Wei Zhou, Gang Ma, Yonggang Cheng, Xiaolin Chang, Qiao Wang
Publication date: 9 August 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.2016.10.012
Boundary element methods applied to problems in solid mechanics (74S15) Boundary element methods for boundary value problems involving PDEs (65N38)
Related Items (7)
A NURBS-enhanced improved interpolating boundary element-free method for 2D potential problems and accelerated by fast multipole method ⋮ NURBS-enhanced boundary element method based on independent geometry and field approximation for 2D potential problems ⋮ A fast boundary integral equation method for point location problem ⋮ NURBS-enhanced line integration boundary element method for 2D elasticity problems with body forces ⋮ The kriging integration method applied to the boundary element analysis of Poisson problems ⋮ A general 2D meshless interpolating boundary node method based on the parameter space ⋮ The Distance-Sinh combined transformation for near-singularity cancelation based on the generalized Duffy normalization
Uses Software
Cites Work
- Unnamed Item
- A fast multipole hybrid boundary node method for composite materials
- Treatment of domain integrals in boundary element methods
- Multi-domain hybrid boundary node method for evaluating top-down crack in asphalt pavements
- Boundary node method based on parametric space for 2D elasticity
- A new approach to free vibration analysis using boundary elements
- Meshless analysis for three-dimensional elasticity with singular hybrid boundary node method
- A general method for evaluation of 2D and 3D domain integrals without domain discretization and its application in BEM
- A Galerkin boundary node method and its convergence analysis
- The radial integration method for evaluation of domain integrals with boundary-only discretization.
- The evaluation of domain integrals in complex multiply-connected three-dimensional geometries for boundary element methods
- A fast multipole method accelerated adaptive background cell-based domain integration method for evaluation of domain integrals in 3D boundary element method
- Evaluation of regular and singular domain integrals with boundary-only discretization-theory and Fortran code
- Error estimates and condition numbers for radial basis function interpolation
- Boundary integral approximation of volume potentials in three-dimensional linear elasticity
- Shape variable radial basis function and its application in dual reciprocity boundary face method
- A Kriging interpolation-based boundary face method for 3D potential problems
- Fast Fourier transform for efficient evaluation of Newton potential in BEM
- A dual reciprocity boundary face method for 3D non-homogeneous elasticity problems
- A comparison of domain integral evaluation techniques for boundary element methods
- Cell-based volume integration for boundary integral analysis
- Dual Hybrid Boundary Node Method for Solving Transient Dynamic Fracture Problems
- Fast Evaluation of Volume Potentials in Boundary Element Methods
- The Hybrid Boundary Node Method Accelerated by Fast Multipole Expansion Technique for 3D Elasticity
- A new fast multipole boundary element method for solving large-scale two-dimensional elastostatic problems
- A boundary face method for potential problems in three dimensions
- The boundary node method for three-dimensional linear elasticity
- The multiple Reciprocity boundary element method in elasticity: A new approach for transforming domain integrals to the boundary
- An accelerated surface discretization-based BEM approach for non-homogeneous linear problems in 3-D complex domains
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