Finite Element Analysis for Gear Contact Based on UG and ABAQUS

Li Mei Wu; Fei Yang

doi:10.4028/www.scientific.net/AMM.442.229

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 442Finite Element Analysis for Gear Contact Based on...

Finite Element Analysis for Gear Contact Based on UG and ABAQUS

Abstract:

According to the cutting theory of involute tooth profile, established an exact three-dimensional parametric model by UG. Used ABAQUS to crate finite element model for gear meshing. After simulated the meshing process, discussed the periodicity of the tooth surface contact stress. Based on the result of finite element analysis, made a comparison of the maximum contact stress between finite element solution and Hertz theoretical solution, analyzed the contact stress distribution on tooth width, and researched the effect of friction factor on contact stress. All that provided some theoretical basis for gear contact strength design.

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Periodical:

Applied Mechanics and Materials (Volume 442)

Pages:

229-232

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.442.229

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Online since:

October 2013

Authors:

Li Mei Wu, Fei Yang*

Keywords:

ABAQUS, Contact Strength, Finite Element, UG

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References

[1] Viddky E. Beiträge zur Berechnung der Zahnräder. Zeitschrift d. ästerrechichen Ingenieur-und Architekten Vereins Nr. 36(1908).

Google Scholar

[2] Winter H. The Progress of Calculation for Loaded ability of gear, Oct. 31-43(1986).

Google Scholar

[3] Conry T F and Seireg A. A Mathematical Programming Technique for the Evaluation of Load Distribution and Optimal Modification for Gear Systems. ASME Journal of Engineering for Industry. 1115-1122 (1973).

DOI: 10.1115/1.3438259

Google Scholar

[4] Litvin F L, Chen J S, Lu J, and Handschuh R F. Application of Finite Element Analysis for Determination of Load Share, Real Contact Ratio, Precision of Motion, and Stress Analysis. Journal of Mechanical Design. 118 (1996).

DOI: 10.1115/1.2826929

Google Scholar

[5] Gang Ren, Xiu-li Yang, Wen-wu Yuan. Precise modeling of spur cylindrical gears based on UG. Precise manufacturing and automation. 38-40 (2010).

Google Scholar