Complex Modal Analysis of Non-Self-Adjoint Hybrid Serpentine Belt Drive Systems

Lixin  Zhang; Jean W.  Zu; Zhichao  Hou; Research Fellow

Source: Journal of Vibration and Acoustics:;2001:;volume( 123 ):;issue: 002::page 150

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DOI: 10.1115/1.1356697

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A linear damped hybrid (continuous/discrete components) model is developed in this paper to characterize the dynamic behavior of serpentine belt drive systems. Both internal material damping and external tensioner arm damping are considered. The complex modal analysis method is developed to perform dynamic analysis of linear non-self-adjoint hybrid serpentine belt-drive systems. The adjoint eigenfunctions are acquired in terms of the mode shapes of an auxiliary hybrid system. The closed-form characteristic equation of eigenvalues and the exact closed-form solution for dynamic response of the non-self-adjoint hybrid model are obtained. Numerical simulations are performed to demonstrate the method of analysis. It is shown that there exists an optimum damping value for each vibration mode at which vibration decays the fastest.

keyword(s): Equations of motion , Eigenfunctions , Damping , Eigenvalues , Belts , Vibration , Dynamic response , Equations AND Computer simulation ,

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Complex Modal Analysis of Non-Self-Adjoint Hybrid Serpentine Belt Drive Systems

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Journal of Vibration and Acoustics

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contributor author	Lixin Zhang
contributor author	Jean W. Zu
contributor author	Zhichao Hou
contributor author	Research Fellow
date accessioned	2017-05-09T00:06:24Z
date available	2017-05-09T00:06:24Z
date copyright	April, 2001
date issued	2001
identifier issn	1048-9002
identifier other	JVACEK-28856#150_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/126135
description abstract	A linear damped hybrid (continuous/discrete components) model is developed in this paper to characterize the dynamic behavior of serpentine belt drive systems. Both internal material damping and external tensioner arm damping are considered. The complex modal analysis method is developed to perform dynamic analysis of linear non-self-adjoint hybrid serpentine belt-drive systems. The adjoint eigenfunctions are acquired in terms of the mode shapes of an auxiliary hybrid system. The closed-form characteristic equation of eigenvalues and the exact closed-form solution for dynamic response of the non-self-adjoint hybrid model are obtained. Numerical simulations are performed to demonstrate the method of analysis. It is shown that there exists an optimum damping value for each vibration mode at which vibration decays the fastest.
publisher	The American Society of Mechanical Engineers (ASME)
title	Complex Modal Analysis of Non-Self-Adjoint Hybrid Serpentine Belt Drive Systems
type	Journal Paper
journal volume	123
journal issue	2
journal title	Journal of Vibration and Acoustics
identifier doi	10.1115/1.1356697
journal fristpage	150
journal lastpage	156
identifier eissn	1528-8927
keywords	Equations of motion
keywords	Eigenfunctions
keywords	Damping
keywords	Eigenvalues
keywords	Belts
keywords	Vibration
keywords	Dynamic response
keywords	Equations AND Computer simulation
tree	Journal of Vibration and Acoustics:;2001:;volume( 123 ):;issue: 002
contenttype	Fulltext

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