Performances of conventional fiber reinforced composites are challenged in
thermomechanical loading, when development of interlaminar stresses at the interface …

This work is the first to apply nonlocal theory and a variety of deformation plate theories to
study the issue of forced vibration and buckling in organic nanoplates, where the effect of the …

For multi-layered composite plates made up of different types of material components, each
layer commonly has a different reinforcement angle (angle-ply). In the working process …

This is the first study of the static bending and free vibration response of organic nanoplates
based on the combination of nonlocal theory with various shear strain theories, where the …

This work for the first time combines the theory of high-order shear deformation and the
phase-field approach to simulate the free vibration response of cracked nanoplates taking …

Because structures made of FG material often operate in high temperature environments, it
is critical to understand the mechanical behavior of these structures while taking …

This work is the first exploration of the static bending and dynamic response analyses of
piezoelectric bidirectional functionally graded plates by combining the third‐order shear …

This study reports new analytic free vibration solutions of non-Lévy-type porous functionally
graded material (FGM) rectangular plates, ie, those without two opposite edges simply …

The crack propagation behavior of plane strain micro-plates is studied in this paper using
the modified couple stress theory and the phase-field theory. To the best of our knowledge …

Exploring new analytic buckling solutions of cracked plates is of much importance for
providing benchmark results and implementing preliminary structural designs based on …