The classical continuum mechanics theory is inadequate for modeling the mechanical
responses of the microstructures due to its failure to account for size effects. Instead …

In this paper, we study the free vibration and buckling analyses of the porous metal foam
microplates based on the isogeometric approach. Three types of porosity distribution along …

Free vibration and buckling analyses of the magneto-electro-elastic functionally graded
(MEE FG) microplates in thermal environment are investigated for the first time. The MEE FG …

Elastic bulk wave characteristics of doubly curved nanoshell made of functionally graded
(FG) anisotropic material are studied. The effective properties of FG anisotropic material vary …

In the present work, thermo-elastic vibrational behavior of thick microbeams embedded in a
two-parameter elastic foundation is studied. A Winkler-Pasternak type elastic foundation …

Eringen's nonlocal elasticity theory is extensively employed for the analysis of
nanostructures because it is able to capture nanoscale effects. Previous studies have …

This study aims at investigating the size-dependent free vibration of porous nanoplates
when exposed to hygrothermal environment and rested on Kerr foundation. Based on the …

In this paper, a novel formulation for the micro rotating beams based on the strain gradient
theory and the assumptions of Timoshenko and Euler-Bernoulli beam models is developed …

Analyzing effects of uncertainty in material properties and geometric parameters in the
manufacturing of MEMS is crucial for designing accurate tools with suitable performance …

In this paper, the stochastic vibration characteristics of a functionally graded material micro-
switch with random material properties near the pull-in instability are investigated. The …