Three-dimensional Eulerian method for large deformation of viscoelastic fluid: Toward plate-mantle simulation
DOI10.1016/J.JCP.2008.01.052zbMath1388.86018OpenAlexW2037496992MaRDI QIDQ924495
Akira Kageyama, Masanori Kameyama, Mikito Furuichi
Publication date: 16 May 2008
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2008.01.052
viscoelasticityexponential time differencingflux correctionCIPmantle convectiondirectional splitting method
Viscoelastic fluids (76A10) Nonlinear constitutive equations for materials with memory (74D10) Geophysical solid mechanics (74L05) Geological problems (86A60)
Related Items (2)
Cites Work
- Unnamed Item
- Unnamed Item
- Exponential time differencing for stiff systems
- Fully multidimensional flux-corrected transport algorithms for fluids
- Cubic interpolated pseudo-particle method (CIP) for solving hyperbolic- type equations
- Constructing oscillation preventing scheme for advection equation by rational function
- Constructing a multi-dimensional oscillation preventing scheme for the advection equation by a rational function
- A universal solver for hyperbolic equations by cubic-polynomial interpolation. II: Two- and three-dimensional solvers
- Multigrid iterative algorithm using pseudo-compressibility for three-dimensional mantle convection with strongly variable viscosity
- A Lagrangian integration point finite element method for large deformation modeling of viscoelastic geomaterials.
- A convexity preserving scheme for conservative advection transport
- Finite amplitude convective cells and continental drift
- Completely conservative and oscillationless semi-Lagrangian schemes for advection transportation
- Exactly conservative semi-Lagrangian scheme for multi-dimensional hyperbolic equations with directional splitting technique
This page was built for publication: Three-dimensional Eulerian method for large deformation of viscoelastic fluid: Toward plate-mantle simulation
