Application of Bi-Directional Functionally Graded Material Model for Free Vibration Analysis of Rotating Euler-Bernoulli Nanobeams

Sayed Mohammad Kazem Ohab-Yazdi; Mehran Kadkhodayan

Application of Bi-Directional Functionally Graded Material Model for Free Vibration Analysis of Rotating Euler-Bernoulli Nanobeams

Publish place: Mechanics of Advanced Composite Structures، Vol: 8، Issue: 2

Publish Year: 1400

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1355290

شناسه ملی سند علمی:

JR_MACS-8-2_013

تاریخ نمایه سازی: 2 دی 1400

Abstract:

In this work, mechanical vibration analysis of rotating bi-directional functionally graded Euler-Bernoulli nanobeams is investigated, which has not already been studied deeply based on the latest authors’ knowledge. Material properties vary along the thickness and axis directions based on power-law distribution. The nonlocal elasticity theory of Eringen (NET) is utilized for modeling small-scale effects. Different boundary conditions are considered as clamped-clamped (C-C), clamped-simply (C-S), and clamped-free (C-F). Governing equations and associated boundary conditions are derived based on minimum total potential energy, and the generalized differential quadrature (GDQ) method is employed for the solution process. Convergence and verification studies are accomplished to affirm this work, and in the continuation, the effects of various parameters, namely hub ratio, rotation speed, and power indexes along x and z directions on the dimensionless natural frequencies, are investigated. It is revealed that the decrement made by the different values of in the natural frequency, parameter is more effective than the reduction caused by the , especially for the higher rotation speed.

Keywords:

Rotating nanobeam , Generalized differential quadrature method , Nonlocal elasticity theory

Authors

Sayed Mohammad Kazem Ohab-Yazdi

Department of Mechanical Engineering, Ferdowsi University of Mashhad, Mashhad, Iran

Mehran Kadkhodayan

Department of Mechanical Engineering, Ferdowsi University of Mashhad, Mashhad, Iran

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