Mechanical analysis of functionally graded porous structures: A review
Functionally graded porous structures (FGPSs), characterized by a continuous spatial
gradient in both porosity and material properties, have been considered as the new …
gradient in both porosity and material properties, have been considered as the new …
Nonlinear forced vibrations of FGM sandwich cylindrical shells with porosities on an elastic substrate
Y Liu, Z Qin, F Chu - Nonlinear Dynamics, 2021 - Springer
The nonlinear forced vibrations of functionally graded material (FGM) sandwich cylindrical
shells with porosities on an elastic substrate are studied. A step function and a porosity …
shells with porosities on an elastic substrate are studied. A step function and a porosity …
Dynamic deflection and contact force histories of graphene platelets reinforced conical shell integrated with magnetostrictive layers subjected to low-velocity impact
The present paper concerns low-velocity impact for nanocomposite sandwich truncated
conical shells (NSTCS). Graphene platelets (GPLs)-reinforced as core layer is covered …
conical shells (NSTCS). Graphene platelets (GPLs)-reinforced as core layer is covered …
Porosity distribution effect on stress, electric field and nonlinear vibration of functionally graded nanostructures with direct and inverse flexoelectric phenomenon
In the present paper, the effect of the diverse distribution of porosity on the static and
nonlinear dynamic responses of a sandwich functionally graded nanostructure with thermo …
nonlinear dynamic responses of a sandwich functionally graded nanostructure with thermo …
Dynamic stability response of truncated nanocomposite conical shell with magnetostrictive face sheets utilizing higher order theory of sandwich panels
Present research is conducted in order to assess dynamic stability behavior of a
nanocomposite sandwich truncated conical shells (NSTCS). In fact, graphene platelets …
nanocomposite sandwich truncated conical shells (NSTCS). In fact, graphene platelets …
Analytical solution for vibration and buckling of cylindrical sandwich panels with improved FG metal foam core
In this research paper, a novel higher-order porosity distribution is proposed, and free
vibration and buckling behavior of cylindrical sandwich panels with functionally graded …
vibration and buckling behavior of cylindrical sandwich panels with functionally graded …
Moving load response of ring-stiffened sandwich truncated conical shells with GPLRC face sheets and porous core
As a first attempt, the dynamic responses of sandwich truncated conical shells with
graphene platelets reinforced composite (GPLRC) face sheets, porous core and …
graphene platelets reinforced composite (GPLRC) face sheets, porous core and …
Free vibration of point supported ring-stiffened truncated conical sandwich shells with GPLRC porous core and face sheets
F Bahranifard, P Malekzadeh… - … Based Design of …, 2024 - Taylor & Francis
As a first attempt, the vibrational behaviors of point supported truncated conical sandwich
shells with circumferential stiffeners, graphene platelets reinforced composite porous core …
shells with circumferential stiffeners, graphene platelets reinforced composite porous core …
[HTML][HTML] Porosity and size effects on electro-hygrothermal bending of FG sandwich piezoelectric cylindrical shells with porous core via a four-variable shell theory
The sinusoidal four-variable shear deformation shell theory is employed, for the first time, to
investigate the size dependent electro-hygrothermal bending of functionally graded (FG) …
investigate the size dependent electro-hygrothermal bending of functionally graded (FG) …
A shooting method for buckling and post-buckling analyses of FGSP circular plates considering various patterns of Pores' placement
This paper studies the effects of porosity distributions on buckling and post-buckling
behaviors of a functionally graded saturated porous (FGSP) circular plate. The plate is under …
behaviors of a functionally graded saturated porous (FGSP) circular plate. The plate is under …