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Dynamics Modeling and Resonance Analysis of Anti-Backlash Gear Transmission System Based on Harmonic Balance Method

Anti-backlash gear system is applied widely in precision mechanisms, and it is important to research its dynamic characteristics for improving the dynamic accuracy of system. The nonlinear dynamics equivalent model of an anti-backlash gear system in a servomechanism with time-varying mesh stiffness... Full description

Journal Title: Advanced materials research 2013-06-27, Vol.711, p.556-561
Main Author: Shang, Jian Zhong
Other Authors: Wang, Xiao Ming , Luo, Zi Rong , Zheng, Yang , Yu, Nai Hui
Format: Electronic Article Electronic Article
Language: English
ID: ISSN: 1022-6680
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recordid: cdi_crossref_primary_10_4028_www_scientific_net_AMR_711_556
title: Dynamics Modeling and Resonance Analysis of Anti-Backlash Gear Transmission System Based on Harmonic Balance Method
format: Article
creator:
  • Shang, Jian Zhong
  • Wang, Xiao Ming
  • Luo, Zi Rong
  • Zheng, Yang
  • Yu, Nai Hui
ispartof: Advanced materials research, 2013-06-27, Vol.711, p.556-561
description: Anti-backlash gear system is applied widely in precision mechanisms, and it is important to research its dynamic characteristics for improving the dynamic accuracy of system. The nonlinear dynamics equivalent model of an anti-backlash gear system in a servomechanism with time-varying mesh stiffness and gear side clearance is proposed. The dynamic transmission error of system is calculated by HBM and numerical computation method (NCM). Based on this, the effect of different parameters on resonance frequency of system is analyzed deeply. The results show that the resonance frequency is higher, when the mesh stiffness is increasing; proper preload force and gear side clearance can make the amplitude of resonance peak lower, which is useful to void more damages to mechanism when resonance comes up.
language: eng
source:
identifier: ISSN: 1022-6680
fulltext: no_fulltext
issn:
  • 1022-6680
  • 1662-8985
  • 1662-8985
url: Link


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titleDynamics Modeling and Resonance Analysis of Anti-Backlash Gear Transmission System Based on Harmonic Balance Method
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creatorcontribShang, Jian Zhong ; Wang, Xiao Ming ; Luo, Zi Rong ; Zheng, Yang ; Yu, Nai Hui
descriptionAnti-backlash gear system is applied widely in precision mechanisms, and it is important to research its dynamic characteristics for improving the dynamic accuracy of system. The nonlinear dynamics equivalent model of an anti-backlash gear system in a servomechanism with time-varying mesh stiffness and gear side clearance is proposed. The dynamic transmission error of system is calculated by HBM and numerical computation method (NCM). Based on this, the effect of different parameters on resonance frequency of system is analyzed deeply. The results show that the resonance frequency is higher, when the mesh stiffness is increasing; proper preload force and gear side clearance can make the amplitude of resonance peak lower, which is useful to void more damages to mechanism when resonance comes up.
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descriptionAnti-backlash gear system is applied widely in precision mechanisms, and it is important to research its dynamic characteristics for improving the dynamic accuracy of system. The nonlinear dynamics equivalent model of an anti-backlash gear system in a servomechanism with time-varying mesh stiffness and gear side clearance is proposed. The dynamic transmission error of system is calculated by HBM and numerical computation method (NCM). Based on this, the effect of different parameters on resonance frequency of system is analyzed deeply. The results show that the resonance frequency is higher, when the mesh stiffness is increasing; proper preload force and gear side clearance can make the amplitude of resonance peak lower, which is useful to void more damages to mechanism when resonance comes up.
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atitleDynamics Modeling and Resonance Analysis of Anti-Backlash Gear Transmission System Based on Harmonic Balance Method
jtitleAdvanced materials research
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notesSelected, peer reviewed papers from the 2013 2nd International Conference on Manufacture Engineering, Quality and Production System (ICMEQP 2013), February 27-28, 2013, Hong Kong, China
abstractAnti-backlash gear system is applied widely in precision mechanisms, and it is important to research its dynamic characteristics for improving the dynamic accuracy of system. The nonlinear dynamics equivalent model of an anti-backlash gear system in a servomechanism with time-varying mesh stiffness and gear side clearance is proposed. The dynamic transmission error of system is calculated by HBM and numerical computation method (NCM). Based on this, the effect of different parameters on resonance frequency of system is analyzed deeply. The results show that the resonance frequency is higher, when the mesh stiffness is increasing; proper preload force and gear side clearance can make the amplitude of resonance peak lower, which is useful to void more damages to mechanism when resonance comes up.
doi10.4028/www.scientific.net/AMR.711.556
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