What question did this study set out to answer?

To investigate heat and mass transfer processes in nonlinear anisotropic materials with a focus on heat flux characteristics.

March 17, 2026

Heat and Mass Transfer in Nonlinear Anisotropic Space with Relaxation of the Heat Flux

Key Points

To investigate heat and mass transfer processes in nonlinear anisotropic materials with a focus on heat flux characteristics.
Analytically solve a boundary value problem for quasi-linear parabolic equations
Examine boundary conditions at the coordinate origin
Model thermal wave propagation in anisotropic space using power law temperature dependence
Thermal wave propagation occurs at finite velocities in anisotropic materials
Thermal wavefronts are elliptical in two dimensions and ellipsoidal in three dimensions
The findings have implications for improving thermal management in materials like rocket heat shields

Abstract

A boundary value problem with a boundary condition of the first kind at the coordinate origin is solved analytically for a quasi-linear equation of parabolic type when the temperature dependence of the components in the heat conduction tensor is a power law. Analysis indicates wave propagation of the heat in anisotropic space at finite velocity, in contrast to the infinite velocity for a linear equation of parabolic type. The thermal wavefront in anisotropic space takes the form of ellipses on a plane and ellipsoids in three-dimensional space. Modeling the thermal waves permits ongoing determination of the thermal state of anisotropic bodies—for example, heat-shielding composites used in rockets—on interaction with fast, high-enthalpy gas fluxes.

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Heat and Mass Transfer in Nonlinear Anisotropic Space with Relaxation of the Heat Flux

Key Points

Abstract

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