scientific article; zbMATH DE number 1143733

DOI<4159::AID-NME239>3.0.CO;2-A 10.1002/(SICI)1097-0207(19971130)40:22<4159::AID-NME239>3.0.CO;2-AzbMath0908.73080MaRDI QIDQ4385927

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Publication date: 2 March 1999

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zbMATH Keywords

initial-boundary value problem Adams-Bashforth scheme preconditioned conjugate gradients Euler scheme incomplete Cholesky preconditioner rate formulation cubic elements criss-cross mesh patterns explicit two-step scheme second-order quadrature formulas

Mathematics Subject Classification ID

Nonlinear elasticity (74B20) Finite element methods applied to problems in solid mechanics (74S05)

Related Items (1)

The least-squares finite element method in elasticity?Part I: Plane stress or strain with drilling degrees of freedom

Cites Work

Analysis of finite elastoplastic deformation using a new finite element method
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Three-dimensional mass-conserving elements for compressible flows
Least squares finite element simulation of transonic flows
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Finite elastoplastic deformation in metal forming processes with a complete formulation for sliding friction
Semidiscrete least squares methods for linear convection-diffusion problem
Convergence and stability analyses of multi-time step algorithm for parabolic systems
Optimal least-squares finite element method for elliptic problems
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Finite elasto-plastic deformation. I: Theory and numerical examples
A least-squares finite element method for incompressible flow in stress-velocity-pressure version
A robust incomplete Choleski-conjugate gradient algorithm
Computation of shear bands using a new variational approach, I: Theory and elementary examples
Least-squares finite element method and preconditioned conjugate gradient solution
A review of least‐squares methods for solving partial differential equations
On least squares approximations to indefinite problems of the mixed type
Some criteria for numerically integrated matrices and quadrature formulas for triangles
Least square‐finite element for elasto‐static problems. Use of ‘reduced’ integration
Convergence studies of least‐squares finite elements for first‐order systems
The least‐squares finite element method for low‐mach‐number compressible viscous flows
Use of the least squares criterion in the finite element formulation

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