Litcius/Paper detail

Investigating parametric homogenization models for natural frequency of FGM nano beams

A. Berkia, Billel Rebai, Bilal Litouche, Soufiane Abbas, K. Mansouri

2023AIMS Materials Science11 citationsDOIOpen Access PDF

Abstract

<abstract> <p>This research focuses on exploring the free vibration behavior of functionally graded (FG) nano-beams. To calculate the effective properties of the FG nano-beam, which varies solely in the thickness direction, the four homogenization schemes Mori-Tanaka, Tamura, Reuss and Voigt are employed. This study employs high-order shear deformation nano-beam theory and derives the governing equations of motion using nonlocal differential constitutive relations of Eringen. Hamilton's principle is utilized in conjunction with the refined three variables beam theory. The consideration of a length scale parameter accounts for small-scale effects. Analytical solutions are obtained for a simply supported FG nano-beam and compared with existing literature solutions. The research also investigates the influence of different homogenization schemes, the nonlocal parameter, beam aspect ratio and various material compositions on the dynamic response of the FG nano-beam.</p> </abstract>

Topics & Concepts

Homogenization (climate)VibrationNano-Parametric statisticsBeam (structure)Length scaleMaterials scienceNatural frequencyEquations of motionMathematicsMathematical analysisPhysicsMechanicsComposite materialClassical mechanicsOpticsStatisticsBiodiversityEcologyQuantum mechanicsBiologyNonlocal and gradient elasticity in micro/nano structuresComposite Structure Analysis and OptimizationNumerical methods in engineering