Title

State space approach for the vibration of nanobeams based on the nonlocal thermoelasticity theory without energy dissipation

Document Type

Article

Publication Date

7-23-2015

Abstract

© 2015, The Korean Society of Mechanical Engineers and Springer-Verlag Berlin Heidelberg. In this article, an Euler-Bernoulli beam model based upon nonlocal thermoelasticity theory without energy dissipation is used to study the vibration of a nanobeam subjected to ramp-type heating. Classical continuum theory is inherently size independent, while nonlocal elasticity exhibits size dependence. Among other things, this leads to a new expression for the effective nonlocal bending moment as contrasted to its classical counterpart. The thermal problem is addressed in the context of the Green-Naghdi (GN) theory of heat transport without energy dissipation. The governing partial differential equations are solved in the Laplace transform domain by the state space approach of modern control theory. Inverse of Laplace transforms are computed numerically using Fourier expansion techniques. The effects of nonlocality and ramping time parameters on the lateral vibration, temperature, displacement and bending moment are discussed.

Publication Title

Journal of Mechanical Science and Technology

Share

COinS