The demand for increasing the strength of the structural element without an increase in the
size of the elements leads to the introduction of reinforcements. Employing carbon …

Novel 2D materials are now at the forefront of develo** advanced multifunctional
composite film due to their fascinating properties. Particularly, graphene and MXene-based …

The current work develops a size-dependent model to provide a comprehensive analysis of
static stability in doubly curved micro-panels resting on an elastic foundation. The doubly …

What is desirable in engineering is to bring the engineering model as close to reality as
possible while the simplicity of model is also considered. In recent years, several studies …

For the first time, buckling behavior of functionally graded (FG) nanoplates made of
anisotropic material (beryllium crystal as a hexagonal material) is investigated. Also, it is the …

This work presents an efficient and original high-order shear and normal deformation theory
for the static and free vibration analysis of functionally graded plates. The Hamilton's …

For the first time, forced resonance vibration of Graphene Nano-Platelets (GNPs) reinforced
Functionally Graded Polymer Composite (FG-PC) nanoplates is studied. The effective …

In the current research, a thorough investigation of the free vibrational characteristics of a
novel smart sandwich plate has been performed utilizing two different analytical and …

The current inquiry aims to scrutinize the porosity's effect on the buckling response of carbon
nanotube reinforced composite (CNTRC) imperfect beams. The developed theories account …

In this paper, static analysis and the stress concentration phenomenon of functionally
graded carbon nanotubes reinforced composite cylindrical shells with various boundary …