Evaluation of accuracy and stability of the classical SPH method under uniaxial compression
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Publication:887015
DOI10.1007/S10915-014-9948-4OpenAlexW2029605564MaRDI QIDQ887015
Publication date: 27 October 2015
Published in: Journal of Scientific Computing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10915-014-9948-4
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Cites Work
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- Investigation of wall bounded flows using SPH and the unified semi-analytical wall boundary conditions
- Heuristic acceleration correction algorithm for use in SPH computations in impact mechanics
- Modelling of metal forging using SPH
- A large-deformation Galerkin SPH method for fracture
- A numerical study of the SPH method for simulating transient viscoelastic free surface flows
- Shock simulation by the particle method SPH
- Conduction modelling using smoothed particle hydrodynamics
- High strain Lagrangian hydrodynamics. A three-dimensional SPH code for dynamic material response
- Simulating free surface flows with SPH
- Smoothed particle hydrodynamics stability analysis
- Smoothed particle hydrodynamics: Some recent improvements and applications
- Analytical and computational assessment of locking in the \(hp\) finite element method
- A treatment of zero-energy modes in the smoothed particle hydrodynamics method
- Stability analysis of particle methods with corrected derivatives.
- Flow modelling in casting processes
- Material stability analysis of particle methods
- An improvement for tensile instability in smoothed particle hydrodynamics
- A new approach to quadrature for finite elements incorporating hourglass control as a special case
- A simplified approach to enhance the performance of smooth particle hydrodynamics methods
- Novel approach for modelling of nanomachining using a mesh-less method
- SPH without a tensile stability
- Restoring particle consistency in smoothed particle hydrodynamics
- Smooth particle hydrodynamics: status and future potential
- Large Deformation Analysis with Galerkin based Smoothed Particle Hydrodynamics
- Stabilized updated Lagrangian corrected SPH for explicit dynamic problems
- Smoothed particle hydrodynamics: theory and application to non-spherical stars
- On Locking and Robustness in the Finite Element Method
- Remarks on tension instability of Eulerian and Lagrangian corrected smooth particle hydrodynamics (CSPH) methods
- STRESS POINTS FOR TENSION INSTABILITY IN SPH
- An approach for tension instability in smoothed particle hydrodynamics (SPH)
- High pressure die casting simulation using a Lagrangian particle method
- A stabilization technique to avoid hourglassing in finite elasticity
- Normalized SPH with stress points
- Reproducing kernel particle methods for structural dynamics
- Locking Effects in the Finite Element Approximation of Plate Models
- The Potential for SPH Modelling of Solid Deformation and Fracture
- SPH elastic dynamics
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