Winkler‐Pasternak foundation effect on the buckling loads of arbitrarily rigid or restrained supported nonlocal beams made of different FGM and porosity distributions

Abstract: The present research investigates lateral stability of a functionally graded nanobeam using Eringen's differential nonlocal elasticity model under rigid (clamped, pinned, free) and deformable (lateral, rotational restraints) boundary conditions. Sigmoid and power law have been employed as grading laws to study the influence of the material distribution on the snap‐buckling analysis of a nanobeam with arbitrary boundary conditions. Moreover, Fourier sine series with Stokes’ transformation are employed to invest… Show more

“…Another work by Uzun and Yaylı [14] delved into exploring the lateral stability of a FG nanobeam using Eringen's differential nonlocal elasticity model. Various boundary conditions, including rigid (clamped, pinned, free) and deformable (lateral, rotational restraints), were examined to assess the influence of material distribution on snap-buckling analysis.…”

Thermal vibration of armchair, chiral, and zigzag types of single walled carbon nanotubes using a nonlocal elasticity theory: An analytical approach

“…Another work by Uzun and Yaylı [14] delved into exploring the lateral stability of a FG nanobeam using Eringen's differential nonlocal elasticity model. Various boundary conditions, including rigid (clamped, pinned, free) and deformable (lateral, rotational restraints), were examined to assess the influence of material distribution on snap-buckling analysis.…”

Thermal vibration of armchair, chiral, and zigzag types of single walled carbon nanotubes using a nonlocal elasticity theory: An analytical approach

Yerel olmayan elastisite teorisine göre üç mesnetli nano kirişin doğrusal olmayan titreşim davranışı