Article ID Journal Published Year Pages File Type
4633094 Applied Mathematics and Computation 2009 10 Pages PDF
Abstract
In this paper we study the spatial behaviour of solutions for the three-phase-lag heat equation on a semi-infinite cylinder. The theory of three-phase-lag heat conduction leads to a hyperbolic partial differential equation with a fourth-order derivative with respect to time. First, we investigate the spatial evolution of solutions of an initial boundary-value problem with zero boundary conditions on the lateral surface of the cylinder. Under a boundedness restriction on the initial data, an energy estimate is obtained. An upper bound for the amplitude term in this estimate in terms of the initial and boundary data is also established. For the case of zero initial conditions, a more explicit estimate is obtained which shows that solutions decay exponentially along certain spatial-time lines. A class of non-standard problems is also considered for which the temperature and its first two time derivatives at a fixed time T0 are assumed proportional to their initial values. These results are relevant in the context of the Saint-Venant Principle for heat conduction problems.
Related Topics
Physical Sciences and Engineering Mathematics Applied Mathematics
Authors
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