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Strain-based diffusion solver for realistic representation of diffusion front in physical reactions

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  • Jong-Hyun Kim
  • Jung Lee

Abstract

When simulating fluids, such as water or fire, interacting with solids, it is a challenging problem to represent details of diffusion front in physical reaction. Previous approaches commonly use isotropic or anisotropic diffusion to model the transport of a quantity through a medium or long interface. We have identified unrealistic monotonous patterns with previous approaches and therefore, propose to extend these approaches by integrating the deformation of the material with the diffusion process. Specifically, stretching deformation represented by strain is incorporated in a divergence-constrained diffusion model. A novel diffusion model is introduced to increase the global rate at which the solid acquires relevant quantities, such as heat or saturation. This ensures that the equations describing fluid flow are linked to the change of solid geometry, and also satisfy the divergence-free condition. Experiments show that our method produces convincing results.

Suggested Citation

  • Jong-Hyun Kim & Jung Lee, 2017. "Strain-based diffusion solver for realistic representation of diffusion front in physical reactions," PLOS ONE, Public Library of Science, vol. 12(4), pages 1-19, April.
    • Handle: RePEc:plo:pone00:0175695
    DOI: 10.1371/journal.pone.0175695
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