A full 3D finite element analysis using adaptive refinement and PCG solver with back interpolation
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Publication:1808150
DOI10.1016/S0045-7825(98)00188-1zbMath0963.74063OpenAlexW1978195200MaRDI QIDQ1808150
Publication date: 2 December 1999
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0045-7825(98)00188-1
finite element analysisadaptive refinementback interpolationpreconditioned conjugate gradient solver
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Cites Work
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- Large-scale vectorized implicit calculations in solid mechanics on a Cray X-MP/48 utilizing EBE preconitioned conjugate gradients
- 3D mesh refinement in compliance with a specified node spacing function
- The effect of ordering on preconditioned conjugate gradients
- On constructing accurate recovered stress fields for the finite element solution of Reissner-Mindlin plate bending problems
- Automatic unstructured grid generators
- Automatic adaptive refinement finite element procedure for 3D stress analysis
- Improvements on Delaunay-based three-dimensional automatic mesh generator
- Accuracy and effectiveness of preconditioned conjugate gradient algorithms for large and ill-conditioned problems
- Solution of linear equations with a symmetrically skyline-stored nonsymmetric matrix
- A study of adaptively remeshed finite element problems using higher order tetrahedra
- A posteriori error analysis and adaptive processes in the finite element method: Part II—adaptive mesh refinement
- A simple error estimator and adaptive procedure for practical engineerng analysis
- Mesh rezoning of 2D isoparametric elements by inversion
- On the rates of convergence of the finite element method
- The superconvergent patch recovery anda posteriori error estimates. Part 1: The recovery technique
- An alternating digital tree (ADT) algorithm for 3D geometric searching and intersection problems
- Solution of linear equations with skyline-stored symmetric matrix
- Frontal solution program for unsymmetric matrices
- Patch recovery based on superconvergent derivatives and equilibrium
- Superconvergent patch recovery with equilibrium and conjoint interpolant enhancements
- Iterative Solution Methods
- AUTOMATIC ADAPTIVE 3-D FINITE ELEMENT REFINEMENT USING DIFFERENT-ORDER TETRAHEDRAL ELEMENTS
- HIGH-PERFORMANCE PCG SOLVERS FOR FEM STRUCTURAL ANALYSIS
- Automatic adaptive refinement for shell analysis using nine-node assumed strain element
- On using different finite elements with an automatic adaptive refinement procedure for the solution of 2-D stress analysis problems
- A robust incomplete factorization based on value and space constraints
- The multigrid method in solid mechanics: Part I—Algorithm description and behaviour
- The multigrid method in solid mechanics: Part II—Practical applications
- A frontal solution program for finite element analysis
