This research investigates the application of novel functionally graded small-scale materials
(FGSMs) in sport and sports structures through an engineering design lens. Functionally …

Since the classical continuum theories are insufficient to account the small size effects of
nanobeams, the nonlocal continuum theories such as Eringen's nonlocal elasticity theory …

The free vibration analysis of rotating axially functionally graded nanobeams under an in-
plane nonlinear thermal loading is provided for the first time in this paper. The formulations …

In this study, the vibration behaviors of porous nanotubes are investigated for the first time.
The nonlocal strain gradient theory in conjunction with a refined beam model are employed …

This article aims to study the buckling and free vibrational behavior of axially functionally
graded (AFG) nanobeam under thermal effect for the first time. The temperature is …

This investigation focuses on the nonlinear behavior of porosity-dependent functionally
graded (FG) truncated conical small-scale structures. The modified coupled stress theory, as …

Linear and nonlinear free vibration analysis of functionally graded porous (FGP) nanobeam
with four different porous distribution patterns is performed on the basis of stress-driven two …

In this work, perforated and restrained nanobeams with deformable boundary conditions are
modeled based on the non-local strain gradient elasticity theory with the elastic medium …

Although many researchers have studied the vibration and buckling behavior of porous
materials, the behavior of porous nanobeams is still a needed issue to be studied. This …

The prime objective of this study is allocated to comprehensive investigating the free
vibration of bi-directional functionally graded (2D-FG) rotary nanobeam with even porosity …