Volume 90, №5
INVESTIGATION OF CONTACT THERMAL RESISTANCE IN A FINITE CYLINDER WITH AN INTERNAL SOURCE BY THE FAST EXPANSION METHOD AND THE PROBLEM OF CONSISTENCY OF BOUNDARY CONDITIONS
By the fast expansion method, the authors have obtained the approximate solution of the problem in analytical form, which holds true at all points of the cylinder up to the boundary. From an analysis of the solution, it follows that the broken thermal contact between annular regions gives rise to a weak thermal resistance. Beginning with four annular regions, the thermal resistance remains constant, in practice. This result was obtained for the fi rst time. When no more than three terms in a Fourier series are used, the maximum residual of the differential heatconduction equation is 10–2.
Author: A. D. Chernyshov, V. M. Popov, V. V. Goryainov, and O. V. Leshonkov
Keywords: contact thermal resistance, fi nite cylinder, fast expansions, temperature fi eld, internal source, residual of the differential equation
Page: 1225
A. D. Chernyshov, V. M. Popov, V. V. Goryainov, and O. V. Leshonkov.
INVESTIGATION OF CONTACT THERMAL RESISTANCE IN A FINITE CYLINDER WITH AN INTERNAL SOURCE BY THE FAST EXPANSION METHOD AND THE PROBLEM OF CONSISTENCY OF BOUNDARY CONDITIONS //Journal of engineering physics and thermophysics.
. Volume 90, №5. P. 1225.
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