Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/22758
Title: Dynamic analysis of involute spur gears with asymmetric teeth
Authors: Ekwaro-Osire, Stephen
Uludağ Üniversitesi/Mühendislik Fakültesi/Makine Mühendisliği Bölümü.
0000-0001-8474-7328
0000-0001-9126-0315
Karpat, Fatih
Çavdar, Kadir
Babalık, Fatih Cengiz
A-5259-2018
A-4627-2018
24366799400
56242537600
6508276205
Keywords: Gear
Asymmetric teeth
Dynamic load
Transmission error
Design
Tooth profile modifi cations
Static transmission error
Computer-aided analysis
Contact-ratio
Surface temperatures
Surface temperatures
Film thickness
Load
Engineering
Mechanics
Aerospace industry
Dentistry
Design
Dynamic analysis
Dynamic loads
Dynamic programming
Electric generators
Electric load flow
Error detection
Errors
Fast fourier transforms
Fourier transforms
Gear manufacture
Gear teeth
Gears
Hydraulic machinery
Hydraulic motors
Matlab
Turbines
Wind power
Wind turbines
Asymmetric teeth
Automobile industries
Bending stresses
Contact zones
Dynamic behaviors
Dynamic factors
Finite element analysis
Frequency analyses
Gear contact ratios
Gear designs
High loads
High speeds
Load capacities
Involute spur gears
Long lives
Low costs
Operation speeds
Performance requirements
Pressure angles
Secondary objectives
Single teeth
Transmission error
Wind turbine industries
Spur gears
Issue Date: Dec-2008
Publisher: Pergamon-Elsevier
Citation: Karpat, F. vd. (2008). ''Dynamic analysis of involute spur gears with asymmetric teeth''. International Journal of Mechanical Sciences, 50(12), 1598-1610.
Abstract: New gear designs are needed because of the increasing performance requirements, such as high load capacity, high endurance, low cost, long life, and high speed. In some applications, such as in wind turbines, the gears experience only uni-directional loading. In these instances, the geometry of the drive side does not have to be symmetric to the coast side. This allows for the designing of gears with asymmetric teeth. In previous studies related to bending stress and load capacity, high performance has been achieved for gears with asymmetric teeth. These gears provide flexibility to designers due to their non-standard design. If they are correctly designed, they can make important contributions to the improvement of designs in aerospace industry, automobile industry, and wind turbine industry. At high operation speeds, there is always a concern of dynamic loads and vibrations of equipment. Therefore, there is a need to fully understand the dynamic behavior of gears with asymmetric teeth. Thus, the primary objective of this paper is to use dynamic analysis to compare conventional spur gears with symmetric teeth and spur gears with asymmetric teeth. The secondary objective is to optimize the asymmetric tooth design in order to minimize dynamic loads. This study offers preliminary results to designers for understanding dynamic behavior of spur gears with asymmetric teeth. For this study, a dynamic model was developed, using MATLAB. and used for the prediction of the instantaneous dynamic loads of spur gears with symmetric and asymmetric teeth. Furthermore, a 2-D three-tooth model was developed for finite element analysis. Fast Fourier transform was used for the frequency analysis of the static transmission errors. It is shown that generally, the dynamic factor, for spur gears with asymmetric teeth, increases with increasing pressure angles on the drive side. For asymmetric teeth, increasing the addendum leads to a significant decrease in the dynamic factor. The static transmission error, at the center of the single tooth contact zone, decreases with increasing pressure angle. The first two harmonics slightly increase with increasing pressure angle. It is further shown that the amplitudes of harmonics of the static transmission errors are significantly reduced when asymmetric teeth with long addendum providing high gear contact ratio close to 2.0 are used.
URI: https://doi.org/10.1016/j.ijmecsci.2008.10.004
https://www.sciencedirect.com/science/article/pii/S0020740308001446
http://hdl.handle.net/11452/22758
ISSN: 0020-7403
Appears in Collections:Scopus
Web of Science

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