Entropy (Dec 2020)

Four Spacetime Dimensional Simulation of Rheological Waves in Solids and the Merits of Thermodynamics

  • Áron Pozsár,
  • Mátyás Szücs,
  • Róbert Kovács,
  • Tamás Fülöp

DOI
https://doi.org/10.3390/e22121376
Journal volume & issue
Vol. 22, no. 12
p. 1376

Abstract

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The recent results attained from a thermodynamically conceived numerical scheme applied on wave propagation in viscoelastic/rheological solids are generalized here, both in the sense that the scheme is extended to four spacetime dimensions and in the aspect of the virtues of a thermodynamical approach. Regarding the scheme, the arrangement of which quantity is represented where in discretized spacetime, including the question of appropriately realizing the boundary conditions, is nontrivial. In parallel, placing the problem in the thermodynamical framework proves to be beneficial in regards to monitoring and controlling numerical artefacts—instability, dissipation error, and dispersion error. This, in addition to the observed preciseness, speed, and resource-friendliness, makes the thermodynamically extended symplectic approach that is presented here advantageous above commercial finite element software solutions.

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