Vol.22, No.2, 2022, pp. 202–209 |
BEHAVIOUR OF CREEP STRESS AND STRAIN RATES IN A SOLID DISC MADE OF ISOTROPIC MATERIAL WITH THERMAL CONDITION Naresh Kumar, Pankaj Thakur* Department of Mathematics, Faculty of Science and Technology, ICFAI University Baddi, Solan, INDIA *email: pankaj_thakur15@yahoo.co.in
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Abstract The present research deals with the study of the behaviour of creep stress and strain rates in a solid disc of isotropic material with thermal condition by using Seth’s transition theory. Results have been discussed numerically and are depicted graphically. It has been observed that the solid disc made of incompressible material requires maximal radial stress at the centre of the solid disc for the yielding condition as compared to the compressible material. Further, the values of radial, as well as circumferential stresses, also increases with increasing angular speed. With the addition of thermal effect the values of radial as well as circumferential stresses increase at the centre of the solid disc. Keywords: displacement and deformation, creep stress and strain, solid disc, thermal effects |
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