A review of size-dependent continuum mechanics models for micro-and nano-structures
Recently, the mechanical behavior of micro-/nano-structures has sparked an ongoing
debate, which leads to a fundamental question: what steps can be taken to investigate the …
debate, which leads to a fundamental question: what steps can be taken to investigate the …
A review on the mechanics of graphene nanoplatelets reinforced structures
Graphene nanoplatelets (GPL) are becoming an emerging nanofiller in the field of
nanocomposites due to the ease and low cost of manufacturing, which have made it a …
nanocomposites due to the ease and low cost of manufacturing, which have made it a …
Buckling analysis of functionally graded tapered microbeams via Rayleigh–Ritz method
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 …
cross-section is analyzed. The microcolumn considered in this study is made of functionally …
Dynamics of imperfect inhomogeneous nanoplate with exponentially-varying properties resting on viscoelastic foundation
This article tries to investigate the dynamic deflection response of exponentially functionally
graded material (E-FGM) nanoplate considering the role of porosities when embedded in a …
graded material (E-FGM) nanoplate considering the role of porosities when embedded in a …
A nonlocal strain gradient isogeometric model for free vibration analysis of magneto-electro-elastic functionally graded nanoplates
In this study, a nonlocal strain gradient isogeometric model, which includes the higher-order
shear deformation theory, nonlocal strain gradient theory and isogeometric analysis method …
shear deformation theory, nonlocal strain gradient theory and isogeometric analysis method …
Nonlocal free vibration analysis of porous FG nanobeams using hyperbolic shear deformation beam theory
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 …
for the free vibration of porous Functionally Graded (FG) nanobeams. A new displacement …
Nonlinear bending and vibration analysis of functionally graded porous tubes via a nonlocal strain gradient theory
GL She, FG Yuan, YR Ren, HB Liu, WS **ao - Composite Structures, 2018 - Elsevier
In this paper, the nonlinear bending and vibrational characteristics of porous tubes are
analyzed for the first time. Within the framework of the nonlocal strain gradient theory, a size …
analyzed for the first time. Within the framework of the nonlocal strain gradient theory, a size …
On the forced mechanics of doubly-curved nanoshell
This paper is determined to study the forced vibration response of doubly-curved shells
including different shape panels. A power-full higher-order shear-deformation theory in …
including different shape panels. A power-full higher-order shear-deformation theory in …
A review of advanced materials, structures and deformation modes for adaptive energy dissipation and structural crashworthiness
Thin-walled hollow structures capable of large plastic deformations are ubiquitously present
in sacrificial, high-capacity energy absorbers. A significant challenge in the field of structural …
in sacrificial, high-capacity energy absorbers. A significant challenge in the field of structural …
A comprehensive review on the vibration analyses of small-scaled plate-based structures by utilizing the nonclassical continuum elasticity theories
In recent years, mechanical characteristics including vibration, bending, buckling and
postbuckling, stability and instability, etc. of small-scaled structures (such as …
postbuckling, stability and instability, etc. of small-scaled structures (such as …