Global weak solutions to degenerate coupled transport processes in partially saturated deformable elastic-inelastic porous media
Date
2020-06-19
Authors
Benes, Michal
Journal Title
Journal ISSN
Volume Title
Publisher
Texas State University, Department of Mathematics
Abstract
In this work we prove the existence of global weak solutions to a degenerate and strongly coupled parabolic system arising from the transport processes through partially saturated deformable porous materials. The hygro-thermal model is coupled with quasi-static evolution equations modeling elastic and inelastic mechanical deformations. Physically relevant Newton boundary conditions are considered for water pressure and temperature of the porous system. The traction boundary condition is imposed on the deformable solid skeleton of the porous material. Degeneration occurs in both elliptic and parabolic part of the balance equation for mass of water. The coupling between water pressure, temperature, stress tensor and internal variables occurs in transport coefficients, constitutive functions and the decomposition of the total strain tensor into elastic and plastic parts due to mechanical effect and strain tensor due to thermal expansion.
Description
Keywords
Second-order parabolic systems, Global solution, Porous media, Smoothness and regularity, Coupled transport processes, Elastic-inelastic solids, Internal variables, Traction problem, Constitutive equations, Coercivity, Convexity
Citation
Benes, M. (2020). Global weak solutions to degenerate coupled transport processes in partially saturated deformable elastic-inelastic porous media. <i>Electronic Journal of Differential Equations, 2020</i>(63), pp. 1-26.
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Attribution 4.0 International
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This work is licensed under a Creative Commons Attribution 4.0 International License.