Simulation of impacts on elastic–viscoplastic solids with the flux-difference splitting finite volume method applied to non-uniform quadrilateral meshes

@article{Heuz2018SimulationOI,
  title={Simulation of impacts on elastic–viscoplastic solids with the flux-difference splitting finite volume method applied to non-uniform quadrilateral meshes},
  author={Thomas Heuz{\'e}},
  journal={Advanced Modeling and Simulation in Engineering Sciences},
  year={2018},
  volume={5},
  pages={1-32}
}
  • T. Heuzé
  • Published 1 December 2018
  • Engineering
  • Advanced Modeling and Simulation in Engineering Sciences
The flux-difference splitting finite volume method (Leveque in J Comput Phys 131:327–353, 1997; Leveque in Finite volume methods for hyperbolic problems. Cambridge: Cambridge University Press, 2002) is here employed to perform numerical simulation of impacts on elastic–viscoplastic solids on bidimensional non-uniform quadrilateral meshes. The formulation is second order accurate in space through flux limiters, embeds the corner transport upwind method, and uses a fractional-step method to… 
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