AN INVERSE STEADY STATE THERMAL STRESSES IN A LIMITING THICK CIRCULAR PLATE WITH INTERNAL HEAT GENERATION

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M. H. Durge, C. M. B. (2013). AN INVERSE STEADY STATE THERMAL STRESSES IN A LIMITING THICK CIRCULAR PLATE WITH INTERNAL HEAT GENERATION. Asian Journal of Current Engineering and Maths, 2(6). Retrieved from http://innovativejournal.in/index.php/ajcem/article/view/542
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Abstract

The present paper deals with the determination of temperature, displacement and thermal stresses in a limiting thick circular plate with internal heat generation. A limiting thick circular plate is subjected to arbitrary known interior temperature under steady state, the fixed circular edge of limiting circular plate are thermally insulated and lower surface of limiting circular plate is kept at zero temperature. Here we compute the effects of internal heat generation in terms of stresses along radial direction and modify Kulkarni V. S. (2008). The governing heat conduction equation has been solved by the method of integral transform technique. The results are obtained in a series form in terms of Bessel’s functions. The results for stresses have been computed numerically and illustrated graphically.

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