Effect of phase lags of moisture–heat flow on the hygrothermoelastic field of hollow cylinders with convective surfaces
- Autores: Yi Teng, Xian Fang Li, Xue Yang Zhang
- Localización: Mechanics based design of structures and machines, ISSN 1539-7734, Vol. 51, Nº. 6, 2023, págs. 3004-3025
- Idioma: inglés
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Resumen
In this article, by considering the Dufour effect and Soret effect, a hygrothermal coupling model based on phase delay of heat and moisture fluxes is established for convective surfaces. The convective surfaces are described by Robin boundary conditions. The Dirichlet boundary conditions (prescribed temperature and moisture on the surfaces) and Neumann boundary conditions (prescribed heat and moisture fluxes) are two extreme cases of the Robin conditions. Using Laplace transform, the effects of different relaxation times and moist-heat coupling on the temperature, moisture, and stress of the hollow cylinder are analyzed from two aspects of time and space. For convective boundary, the dependence of temperature, moisture, and stress on the phase lag of heat and moisture fluxes is examined. The results show that the temperature and moisture distributions along with the hygrothermal stress fields exhibit different behaviors, depending on the coefficient of Robin condition.
