Please submit manuscripts in either of the following two submission systems

    ScholarOne Manuscripts

  • ScholarOne

    • 勤云稿件系统

  • 登录

Search by Issue

  • 2024 Vol.31
  • 2023 Vol.30
  • 2022 Vol.29
  • 2021 Vol.28
  • 2020 Vol.27
  • 2019 Vol.26
  • 2018 Vol.25
  • 2017 Vol.24
  • 2016 vol.23
  • 2015 vol.22
  • 2014 vol.21
  • 2013 vol.20
  • 2012 vol.19
  • 2011 vol.18
  • 2010 vol.17
  • 2009 vol.16
  • No.1
  • No.2

Search by Keywords

  • Search by Title
  • Search by Keywords
  • Search by Abstract
  • Search by Author's Chinese Name
  • Search by Author's English Name
  • Search by Fund

News & AnnouncementMORE

Supervised by Ministry of Industry and Information Technology of The People's Republic of China Sponsored by Harbin Institute of Technology Editor-in-chief Yu Zhou ISSNISSN 1005-9113 CNCN 23-1378/T

期刊网站二维码
微信公众号二维码
Related citation:He Lin,Sanmin Wang,Earl H. Dowell,Jincheng Dong,Cong Ma.Dynamic Characteristics of Double-Helical Planetary Gear Sets Under Time-Varying Mesh Stiffness[J].Journal of Harbin Institute Of Technology(New Series),2016,23(4):44-51.DOI:10.11916/j.issn.1005-9113.2016.04.007.
【Print】   【HTML】   【PDF download】   View/Add Comment  Download reader   Close
←Previous|Next→ Back Issue    Advanced Search
This paper has been: browsed 1161times   downloaded 846times 本文二维码信息
码上扫一扫!
Shared by: Wechat More
Font:larger+|default|smaller-
Dynamic Characteristics of Double-Helical Planetary Gear Sets Under Time-Varying Mesh Stiffness
Author NameAffiliation
He Lin School of Mechanical Engineering, Northwestern Polytechnical University, Xi’an 710072, China 
Sanmin Wang School of Mechanical Engineering, Northwestern Polytechnical University, Xi’an 710072, China 
Earl H. Dowell Department of Materials Science and Mechanical Engineering,Duke University,Durham 27705,USA 
Jincheng Dong School of Mechanical Engineering, Northwestern Polytechnical University, Xi’an 710072, China 
Cong Ma School of Mechanical Engineering, Northwestern Polytechnical University, Xi’an 710072, China 
Abstract:
Internal and external meshes are two of primary excitation sources which induce vibration while double-helical planetary gear sets are in transmission. Based on the analysis of tooth movement principle, three cases of mesh stiffness are derived via investigating the length of action lines,and catalogued in terms of β<β0, β=β0 and β>β0. The simulation demonstrates mesh stiffness between gear pairs performs as a trapezoid waveform (TW) and changes along with the line of action simultaneously, total mesh stiffness comes from the superposition of each engaged gear. While governing equations of motion contained 16 DOFs (degree of freedom) are constructed and effectively solved through the combination of numerical approaches. Comparing with sinusoidal waveform mesh stiffness(SW), the results show that dynamical factors and perturbation under the excitation of TW (β<β0) are greater and remarkable than that from SW, with respect to the mean dynamic factors about 1.51 and 1.28, respectively. The fluctuation response between ring-planet (R-P) is stronger than sun-planet (S-P) which is also validated by both approach studies, frequency spectra analyses identifies larger distinct rotational resonance and more frequencies under TW excitation.
Key words:  time-varying mesh stiffness  trapezoid waveform  mean dynamical factors  frequency spectra
DOI:10.11916/j.issn.1005-9113.2016.04.007
Clc Number:TH113
Fund:

LINKS

Copyright © The Editorial Department of Journal of Harbin Institute of Technology
Address: 92 West Dazhi Street, Nan Gang District, Harbin, Heilongjiang Province, China Postcode: 150001
(C)2015 JOURNAL OF HIT ALL RIGHTS RESERVED. ICP. 0000423255