Publication Type : Journal Article
Publisher : IOP Science
Source : Materials Research Express, vol. 6(7), pp. 075016, 2019
Url : https://iopscience.iop.org/article/10.1088/2053-1591/ab1332
Campus : Chennai
School : School of Engineering
Department : Mathematics
Year : 2019
Abstract : Vibration analysis for functionally graded non-uniform Timoshenko nanobeam under linear and nonlinear temperature profiles across the thickness has been presented on the basis of first order shear deformation theory together with Eringen's nonlocal elasticity theory. The material properties are taken to be temperature dependent and graded in thickness direction according to a power-law distribution. Non-uniformity of the cross-section is arising due to linear variations in thickness and width through the length of the beam. Numerical results have been obtained employing generalized differential quadrature method for solution procedure of the present model. The effect of non-uniformity in cross-section, slenderness ratio, gradient index, nonlocal parameter and temperature profiles on the vibration characteristics and mode shapes have been discussed. The efficacy of present results has been verified by comparing the results with published work.
Cite this Research Publication : Roshan Lal, and ChinikaDangi, “Thermal vibrations of temperature-dependent functionally graded nonuniform Timoshenko nano-beam using nonlocal elasticity theory," Materials Research Express, vol. 6(7), pp. 075016, 2019