Analysis on Contact Stress after Gear Meshing and Finite Element of Stiffness

Ru Yang Wu

doi:10.4028/www.scientific.net/AMM.716-717.670

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 716-717Analysis on Contact Stress after Gear Meshing and...

Analysis on Contact Stress after Gear Meshing and Finite Element of Stiffness

Abstract:

According to APDL language of ANSYS, this paper establishes the ideal identity model of tooth profile and gear based on ideal tooth profile equation, and it gets the ideal gear profile in meshing period and change curve of maximum contact stress with position of gear meshing. The result indicates that the contract stress distribution of ideal gear profile presents certain regularity with meshing state of double gear. Gear module can not change the stiffness value of gear meshing; increasing the number of driving wheel can reduce meshing stiffness. Finally, this paper gets the curve of meshing stiffness changes with load. The result indicates that the effect of load on deviation and tooth profile and gear meshing is larger than that on idea tooth profile and stiffness of gear meshing.

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Periodical:

Applied Mechanics and Materials (Volumes 716-717)

Pages:

670-675

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.716-717.670

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Online since:

December 2014

Authors:

Ru Yang Wu*

Keywords:

Contact Stress, Finite Element, Gear Meshing, Stiffness

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* - Corresponding Author

References

[1] Wei Yangang. Finite Element Analysis on Contact Stress of Involute Spur in Meshing Process of Gear [J]. Journal of Dalian Jiaotong University，2009，30(2): 22-25.

Google Scholar

[2] Wang Yuhang，Tong Zhansheng，Wu Xiuying etc. Load Balancing Mechanism and Choice of Epicyclic Gear Transmission [J]. Heavy Machinery. 2010 (2): 158-162.

Google Scholar

[3] Sun Yuemei，Zhang Ce，Chen Shuxun etc . Experiment Study on Shape Modification of Straight Gear [J]. Chinese Mechanical Engineering. 2003 (8): 10-12.

Google Scholar

[4] Yang Long，Li Yingsheng，Wang Zhiqiang etc. Effect Analysis of Shape Modification on Gear Iflf Temperarture [J]. Mechanical Drive . 2011 (8): 15-19.

Google Scholar

[5] Xie Zuiwei. Analysis on Contact Element of Vee Gear Surface [J]. Mechanical Design， 2007, 24(10): 25-27.

Google Scholar

[6] Li Jingcai. Algorithm Realization of Automatic Calculation of Gear Surface Analysis [J]. Journal of Tianjin University， 2008， 41(12): 1401-1404.

Google Scholar

[7] Zhao Qin. Optimization Design Based on Lowest Epicyclic Singleplanet Helical Gear [J]. Journal of Xin Jiang Agricultural University， 2009， 32(3): 75-77.

Google Scholar

[8] Long Hui. Temperature Analysis and Simulation of Instant Contact Stress of Rotated Gear [J]. Journal of Mechanical Engineering， 2004， (08): 24-29.

Google Scholar

[9] You Mingming. Coefficient Calculation of Transmission Even Load Based on Finite Element [J]. Mechanical Design and Manufacturing，2009 (3)：1-3.

Google Scholar