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Buckling analysis of functionally graded nanobeams via surface stress-driven model

Rosa Penna, Giuseppe Lovisi, Luciano Feo

2024International Journal of Engineering Science16 citationsDOIOpen Access PDF

Abstract

The manuscript investigates the buckling behaviour of Bernoulli-Euler nanobeams composed of Functionally-Graded (FG) materials with different cross-sectional shapes. This analysis is conducted using the surface stress-driven model of elasticity. The nonlocal governing equations for the elastostatic buckling problem are derived employing the principle of virtual work. The study also includes a parametric investigation, presenting and discussing the main results while varying the nonlocal parameter, material gradient index, the cross-sectional shapes and the constraints at the ends of the FG nanobeams. Critical loads are numerically calculated and compared with those obtained by other authors using the classical stress-driven model elasticity.

Topics & Concepts

BucklingMaterials scienceStress (linguistics)Surface stressSurface (topology)Structural engineeringMechanicsComposite materialGeometryMathematicsPhysicsEngineeringLinguisticsPhilosophyNonlocal and gradient elasticity in micro/nano structuresComposite Structure Analysis and OptimizationNumerical methods in engineering