Effects of gear mesh fluctuation and defaults on the dynamic behavior of two-stage straight bevel system

Effects of gear mesh fluctuation and defaults on the dynamic behavior of two-stage straight bevel system

This paper presents a three-dimensional model of two-stage straight bevel gear system. Periodic fluctuations of the gear meshes' stiffness are the main sources of excitation for the faultless gear system. First, dynamic response is calculated using Newmark method which is step-by-step time inte...

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Bibliographic Details
Published in:Mechanism and machine theory Vol. 82; pp. 71 - 86
Main Authors: Yassine, Driss, Ahmed, Hammami, Lassaad, Walha, Mohamed, Haddar
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2014
Subjects:
Bevel gear
Cracked tooth
Eccentricity defect
Gear meshes' stiffness
Profile error
Bevel gear
Gear meshes' stiffness
Eccentricity defect
Profile error
Cracked tooth
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Summary:This paper presents a three-dimensional model of two-stage straight bevel gear system. Periodic fluctuations of the gear meshes' stiffness are the main sources of excitation for the faultless gear system. First, dynamic response is calculated using Newmark method which is step-by-step time integration. The numerical results are presented in both the frequency and time domains. After that, we introduce some defects in the developed model such us the eccentricity defect, profile error and cracked tooth. The dynamic behavior of the defected gear system is compared with that of the faultless system. The numerical results from this work have applications in the design phase or maintenance of this type of bevel gear transmission. •In this paper, we study the dynamic behavior of two-stage straight bevel system with defaults•A three dimensional model was developed•A method for modelling the temporal fluctuation of the meshing stiffness of straight bevel gear was proposed.
ISSN:0094-114X
1873-3999
DOI:10.1016/j.mechmachtheory.2014.07.013