PRINCIPAL⁃PARAMETRIC JOINT RESONANCE OF AN AXIALLY VARIABLE⁃SPEED MOVING BEAM WITH ELASTIC RESTRAINT EXCITED BY CURRENT⁃CARRYING WIRES

PRINCIPAL⁃PARAMETRIC JOINT RESONANCE OF AN AXIALLY VARIABLE⁃SPEED MOVING BEAM WITH ELASTIC RESTRAINT EXCITED BY CURRENT⁃CARRYING WIRES

The principal⁃parametric joint resonance of an axially variable⁃speed moving beam with elastic restraint at both ends was studied.Based on Hamilton principle,the magneto⁃elastic nonlinear vibration equation of the beam was derived,in which magnetic field generated by parallel current⁃carrying wires...

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Bibliographic Details
Main Authors: LI XiaoJing, HU YuDa
Format: Article
Language:zho
Published: Editorial Office of Journal of Mechanical Strength 2024-10-01
Series:Jixie qiangdu
Online Access:http://www.jxqd.net.cn/thesisDetails#10.16579/j.issn.1001.9669.2024.05.001
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Summary:The principal⁃parametric joint resonance of an axially variable⁃speed moving beam with elastic restraint at both ends was studied.Based on Hamilton principle,the magneto⁃elastic nonlinear vibration equation of the beam was derived,in which magnetic field generated by parallel current⁃carrying wires was introduced in modelling.The mode shape function was obtained by means of elastic boundary conditions,and then the Galerkin method was employed to separate time⁃items and space⁃items from each other.The approximate analytical solution and the stability of steady⁃state motion were achieved by multi⁃scale method.In analyzing the computational results,the reliability of the analytical solutions were verified by numerical calculation results corresponding to parameters.In addition,the effects of different parameters on the resonance amplitude and frequency were analyzed.The results show that the stiffnesses of springs and the external excitation force may only affect the amplitude of the system,and the axial velocity,the current and the axial force may lead to the variation of the amplitude and frequency of the resonance,where the stability region increases with the increase of the stiffness of springs.
ISSN:1001-9669

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