Understanding the mechanical behaviour of nanostructures is of great importance due to
their applications in nanodevices such as in nanomechanical resonators, nanoscale mass …

Micro scale experiments demonstrated that the material deformation behaviors of some
metals and polymers deformed elasticity are size dependence, and the modified couple …

In the present study, the buckling problem of nonhomogeneous microbeams with a variable
cross-section is analyzed. The microcolumn considered in this study is made of functionally …

In this paper, the forced resonance vibration analysis of curved micro-size beams made of
graphene nanoplatelets (GNPs) reinforced polymer composites is presented. The …

A standard experimental method for determining the intrinsic material length scale of
modified couple stress theory is proposed based on a non-contact laser Doppler vibration …

Graphene reinforced composites have attracted a great deal of attention in recent years due
to their outstanding mechanical properties. The present work focuses on the size-dependent …

This research presents an exhaustive analysis on the buckling behavior of two-dimensional
functionally graded (2D-FG) tapered Euler–Bernoulli beams made of porous materials in …

The main contribution of this study is to propose an efficient and straightforward numerical
model for exploring size-dependent geometrically nonlinear static and dynamic …

The localization of elastic wave at defect in phononic crystals (PnCs) has been applied to
design piezoelectric energy harvesting (PEH) devices. However, the earlier researches …

Based on the nonlocal strain gradient theory and surface elasticity theory, a unified size-
dependent plate model is developed for buckling analysis of rectangular nanoplates. The …