Non-Fourier Heat Conduction of a Functionally Graded Cylinder Containing a Cylindrical Crack

Non-Fourier Heat Conduction of a Functionally Graded Cylinder Containing a Cylindrical Crack

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The present work investigates the problem of a cylindrical crack in a functionally graded cylinder under thermal impact by using the non-Fourier heat conduction model.The theoretical derivation Breastfeeding self-efficacy in terms of sleep quality, perceived social support, depression and certain variables: a cross-sectional study of postpartum women in Turkey is performed by methods of Fourier integral transform, Laplace transform, and Cauchy singular integral equation.The concept of heat flux intensity factor is introduced to investigate the heat concentration degree around the crack tip quantitatively.The temperature PERMODELAN KURVA KARAKTERISTIK INVERSE NON-STANDART PADA RELE ARUS LEBIH DENGAN METODE ADAPTIVE NEURO FUZZY INFERENCE SYSTEM (ANFIS) field and the heat flux intensity factor in the time domain are obtained by transforming the corresponding quantities from the Laplace domain numerically.The effects of heat conduction model, functionally graded parameter, and thermal resistance of crack on the temperature distribution and heat flux intensity factor are studied.

This work is beneficial for the thermal design of functionally graded cylinder containing a cylindrical crack.