Thermal Memory Response in Magneto-thermoelastic Medium Having Long Cylindrical Cavity

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Abstract: The present paper deals with the memory response on thermal disturbances emanating from a cylindrical cavity in an unbounded thermoelastic solid. Here we have theoretically demonstrated the memory response of thermal disturbances in the generalized magneto-thermo-elastic materials. Firstly, the characteristics of thermoelastic disturbances originated from the cavity in an unbounded elastic solid under the light of generalized magnetothermoelasticity theory with memory dependent derivatives (MDD). For numerical computation, cylindrical-polar coordinate system with radial symmetry subjected to two different types of heat sources into the cavity are considered. An integral transform method and, while in inverse transformation, an efficient and pragmatic NILT (Numerical Inverse Laplace Transform) is adopted. Finally, parameter studies are performed to evaluate the effect of the kernel function and time delay. For thermal wave the results show appreciable differences with those in the usual magneto-thermoelasticity theory.

WSEAS Transactions on Circuits and Systems, ISSN / E-ISSN: 1109-2734 / 2224-266X, Volume 19, 2020, Art. #1

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Santanu Banerjee, Basudeb Mukhopadhyay, Soumen Shaw, "Thermal Memory Response in Magneto-thermoelastic Medium Having Long Cylindrical Cavity," WSEAS Transactions on Circuits and Systems, vol. 19, pp. 1-12, 2020, DOI:10.37394/23201.2020.19.1
Santanu Banerjee, Basudeb Mukhopadhyay, Soumen Shaw. Thermal Memory Response in Magneto-thermoelastic Medium Having Long Cylindrical Cavity. WSEAS Transactions on Circuits and Systems. 2020;19:1-12. 10.37394/23201.2020.19.1
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