In this paper, the free vibration of the functionally graded porous (FGP) non-uniform annular-
nanoplates lying on Winkler foundation (WF) is studied by using the smoothed finite element …

Due to the vast usage of metal foam structures in branches of science, reinforcing them with
nano-fillers makes them more convenient. Hence, in the current study, vibration …

In this paper, the bending and buckling analysis of microbeam with the uniform and non-
uniform cylindrical cross-section was examined based on the classical beam theory and the …

This paper studies wave propagation in functionally graded metal foam plates reinforced
with graphene platelets (GPLs), where various types of porosity and GPL distribution are …

Functionally graded materials are widely utilized in several industrial applications, and their
accurate modeling is challenging for researchers, principally for FGM nanostructures. This …

This paper presents a new nonlocal Hyperbolic Shear Deformation Beam Theory (HSDBT)
for the free vibration of porous Functionally Graded (FG) nanobeams. A new displacement …

This article aims to study bending, buckling, and free vibration behaviors of the functionally
graded porous (FGP) nanoshell resting on an elastic foundation (EF) including static …

In the presented research, vibrational, and amplitude behaviors of a sandwich spinning disk
made of two laminated layers and graphene nanoplatelets reinforced composite (GPLRC) …

Nonclassical continuum theories of elasticity (NCTE) have been extensively used in the
mechanical analyses of small-sized structures due to their effective and tremendous ability …

In this article, thermal buckling and frequency analysis of a size-dependent laminated
composite cylindrical nanoshell in thermal environment using nonlocal strain–stress …