Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control

Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control

This paper presents friction-induced vibration (FIV) caused by combined mode-coupling and negative damping effects in a simple FIV model. In doing so, a new four-degree-of-freedom linear model which consists of a slider and a block is proposed and then simulated using MATLAB/Simulink. Stability or i...

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Main Authors: S. M. Hashemi-Dehkordi, A. R. Abu-Bakar, M. Mailah
Format: Article
Language:English
Published: SAGE Publishing 2014-04-01
Series:Advances in Mechanical Engineering
Online Access:https://doi.org/10.1155/2014/251594
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spelling doaj-a302affeb05b4a2f981e14a1fc0850262020-11-25T03:51:58ZengSAGE PublishingAdvances in Mechanical Engineering1687-81322014-04-01610.1155/2014/25159410.1155_2014/251594Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force ControlS. M. Hashemi-Dehkordi0A. R. Abu-Bakar1M. Mailah2 Department of Applied Mechanics, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Johor, Skudai, Malaysia Department of Automotive Engineering, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Johor, Skudai, Malaysia Department of Applied Mechanics, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Johor, Skudai, MalaysiaThis paper presents friction-induced vibration (FIV) caused by combined mode-coupling and negative damping effects in a simple FIV model. In doing so, a new four-degree-of-freedom linear model which consists of a slider and a block is proposed and then simulated using MATLAB/Simulink. Stability or instability of the FIV model is defined by the convergence or divergence of time domain responses of the slider and the block. Having found critical slope of friction-velocity characteristics that generate instabilities in the model, a conventional closed loop proportional-integral-derivative (PID) controller is first introduced into the main model in order to attenuate the vibration level and subsequently to suppress it. Later, the model is integrated with the active force control (AFC) element to effectively reject the disturbance and reduce the vibrations. It is found that the integrated PID-AFC scheme is effective in reducing vibration compared to the pure PID controller alone. Thus, the proposed control scheme can be one of the potential solutions to suppress vibration in a friction-induced vibration system.https://doi.org/10.1155/2014/251594
collection DOAJ
language English
format Article
sources DOAJ
author S. M. Hashemi-Dehkordi
A. R. Abu-Bakar
M. Mailah
spellingShingle S. M. Hashemi-Dehkordi
A. R. Abu-Bakar
M. Mailah
Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
Advances in Mechanical Engineering
author_facet S. M. Hashemi-Dehkordi
A. R. Abu-Bakar
M. Mailah
author_sort S. M. Hashemi-Dehkordi
title Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
title_short Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
title_full Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
title_fullStr Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
title_full_unstemmed Stability Analysis of a Linear Friction-Induced Vibration Model and Its Prevention Using Active Force Control
title_sort stability analysis of a linear friction-induced vibration model and its prevention using active force control
publisher SAGE Publishing
series Advances in Mechanical Engineering
issn 1687-8132
publishDate 2014-04-01
description This paper presents friction-induced vibration (FIV) caused by combined mode-coupling and negative damping effects in a simple FIV model. In doing so, a new four-degree-of-freedom linear model which consists of a slider and a block is proposed and then simulated using MATLAB/Simulink. Stability or instability of the FIV model is defined by the convergence or divergence of time domain responses of the slider and the block. Having found critical slope of friction-velocity characteristics that generate instabilities in the model, a conventional closed loop proportional-integral-derivative (PID) controller is first introduced into the main model in order to attenuate the vibration level and subsequently to suppress it. Later, the model is integrated with the active force control (AFC) element to effectively reject the disturbance and reduce the vibrations. It is found that the integrated PID-AFC scheme is effective in reducing vibration compared to the pure PID controller alone. Thus, the proposed control scheme can be one of the potential solutions to suppress vibration in a friction-induced vibration system.
url https://doi.org/10.1155/2014/251594
work_keys_str_mv AT smhashemidehkordi stabilityanalysisofalinearfrictioninducedvibrationmodelanditspreventionusingactiveforcecontrol
AT arabubakar stabilityanalysisofalinearfrictioninducedvibrationmodelanditspreventionusingactiveforcecontrol
AT mmailah stabilityanalysisofalinearfrictioninducedvibrationmodelanditspreventionusingactiveforcecontrol
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