"Discontinuity-Driven Mesh Alignment for Evolving Discontinuities in Elastic Solids" by Mihhail Berezovski

Selected Works of Mihhail Berezovski

Follow Contact

Article

Discontinuity-Driven Mesh Alignment for Evolving Discontinuities in Elastic Solids

Journal of Computational Physics

Mihhail Berezovski, Embry-Riddle Aeronautical University
Arkadi Berezovski, Tallinn University of Technology

Download

Submitting Campus

Daytona Beach

Department

Mathematics

Document Type

Article

Publication/Presentation Date

5-1-2020

Disciplines

Mathematics

Abstract/Description

A special mesh adaptation technique and a precise discontinuity tracking are presented for an accurate, efficient, and robust adaptive-mesh computational procedure for one-dimensional hyperbolic systems of conservation laws, with particular reference to problems with evolving discontinuities in solids. The main advantage of the adaptive technique is its ability to preserve the modified mesh as close to the original fixed mesh as possible. The constructed method is applied to the martensitic phase-transition front propagation in solids.

DOI

https://doi.org/10.1016/j.jcp.2020.109542

Publisher

Elsevier

Citation Information

Mihhail Berezovski and Arkadi Berezovski. "Discontinuity-Driven Mesh Alignment for Evolving Discontinuities in Elastic Solids" Journal of Computational Physics Vol. 416 Iss. 109542 (2020)
Available at: http://works.bepress.com/berezovski/27/