Forced oscillations and stability analysis of a nonlinear micro-rotating shaft incorporating a non-classical theory 被引量：2

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摘要 In this paper,the stability and bifurcation analysis of symmetrical and asymmetrical micro-rotating shafts are investigated when the rotational speed is in the vicinity of the critical speed.With the help of Hamilton's principle,nonlinear equations of motion are derived based on non-classical theories such as the strain gradient theory.In the dynamic modeling,the geometric nonlinearities due to strains,and strain gradients are considered.The bifurcations and steady state solution are compared between the classical theory and the non-classical theories.It is observed that using a non-classical theory has considerable effect in the steady-state response and bifurcations of the system.As a result,under the classical theory,the symmetrical shaft becomes completely stable in the least damping coefficient,while the asymmetrical shaft becomes completely stable in the highest damping coefficient.Under the modified strain gradient theory,the symmetrical shaft becomes completely stable in the least total eccentricity,and under the classical theory the asymmetrical shaft becomes completely stable in the highest total eccentricity.Also,it is shown that by increasing the ratio of the radius of gyration per length scale parameter,the results of the non-classical theory approach those of the classical theory.

作者 S.Ali Ghasabi Mohammadreza Arbabtafti Majid Shahgholi

机构地区 Mechanical Engineering Faculty

出处《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2018年第5期970-982,共13页 力学学报（英文版）

关键词 Strain gradient THEORY Micro-rotating SHAFT Stability NONLINEAR OSCILLATION BIFURCATION Multiple scales method

分类号 O1 [理学—基础数学]

作者简介 Mohammadreza Arbabtafti,arbabtafti@sntu.edu

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