A linear-elasticity solver for higher-order space-time mesh deformation | Zendy

Laslo T. Diosady | Zendy; Scott M. Murman | Zendy

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A linear-elasticity solver for higher-order space-time mesh deformation

Author(s) -

Laslo T. Diosady,

Scott M. Murman

Publication year - 2018

Publication title -

2018 aiaa aerospace sciences meeting

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2018-0919

Subject(s) - elasticity (physics) , solver , computer science , linear elasticity , deformation (meteorology) , mathematics , computational science , mathematical optimization , materials science , structural engineering , finite element method , engineering , composite material

A linear-elasticity approach is presented for the generation of meshes appropriate for a higher-order space-time discontinuous finite-element method. The equations of linearelasticity are discretized using a higher-order, spatially-continuous, finite-element method. Given an initial finite-element mesh, and a specified boundary displacement, we solve for the mesh displacements to obtain a higher-order curvilinear mesh. Alternatively, for moving-domain problems we use the linear-elasticity approach to solve for a temporally discontinuous mesh velocity on each time-slab and recover a continuous mesh deformation by integrating the velocity. The applicability of this methodology is presented for several benchmark test cases.

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