Thermomechanical coupled contact analysis of alternating meshing gear teeth surfaces for marine power rear transmission system considering thermal expansion deformation

Wang, Yongmei; Shao, Junpeng; Wang, Xigui; Zhao, Xuezeng

doi:10.1177/1687814017753910

Cited by 4 publications

(1 citation statement)

References 24 publications

(21 reference statements)

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“…Through the solution of the finite element model of the elliptic cylinder gear, the distribution area of the effective stress of the tooth surface is obtained, as shown in Figure 9, which shows that the contact area of the tooth surface in the process of gear engagement is also elliptical and consistent with the analysis in the literature [18][19][20][21][22], which further verifies the accuracy of the analysis method proposed in article. Figure 10 shows the distribution of the effective stress of the six teeth.…”

Section: Comparative Analysis Of Tooth Effective Stresssupporting

confidence: 77%

Meshing Error of Elliptic Cylinder Gear Based on Tooth Contact Analysis

Changbin

Liu

Wei

2020

IJE

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In order to study the dynamic meshing characteristics of the elliptic cylinder gear and obtain the meshing error of the gear transmission system, the two-dimensional static contact analysis of the gear tooth surface is carried out using ANSYS software, and the key parts of the contact area of the tooth surface are determined. Then, the dynamic meshing model of the elliptic cylinder gear is established and the dynamic contact process under load is simulated by ANSYS LS-DYNA software. The distribution law of effective plastic strain, effective stress and pressure of the driving and driven wheels are obtained. On this basis, the distribution law of meshing error is obtained by calculation. The results show that the distribution of stress, strain and tooth surface pressure during tooth meshing is related to the position of the tooth on the elliptical pitch curve. The position of the tooth on the pitch curve and the load it bears has a certain influence on the meshing error. The results of this research can provide some guidance for subsequent study of transmission error of non-circular gears, gears modification and engineering applications.

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Section: Comparative Analysis Of Tooth Effective Stresssupporting

confidence: 77%