Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/24390
Title: Influence of tip relief modification on the wear of spur gears with asymmetric teeth
Authors: Ekwaro, Stephen Osire
Uludağ Üniversitesi/Mühendislik Fakültesi/Makine Mühendisliği Bölümü.
0000-0001-8474-7328
Karpat, Fatih
A-5259-2018
24366799400
Keywords: Wear
Spur gear
Asymmetric teeth
Tip relief
Tooth wear
Mild wear
Simulation
Prediction
Contact
Vibration
Stress
Engineering
Bending strength
Dentistry
Dynamic loads
Dynamic programming
Failure analysis
Gear teeth
Wear of materials
Archard's equation
Contact load
Low vibration
Parameterized
Pressure angles
Sliding wear
Wear depth
Wear model
Spur gears
Issue Date: Jun-2010
Publisher: Soc Tribologists & Lubrication Engineers
Citation: Karpat, F. ve Ekwaro, S. O. (2010). "Influence of tip relief modification on the wear of spur gears with asymmetric teeth". Tribology and Lubrication Technology, 66(6), 50-60.
Abstract: Recently, spur gears with asymmetric teeth have been considered a way of increasing performance while maintaining the gearbox dimensions. Asymmetric teeth have different pressure angles on drive and coast sides. They provide, among other advantages, a high bending strength and low vibration. In spur gears with asymmetric teeth, wear has been observed to be a major failure mode. In this study, the impact of tip relief modification and pressure angle on the wear of spur gears with asymmetric teeth is numerically investigated. Here, the focus is on sliding wear A wear model based on Archard's equation is employed to predict wear depth. The pressure angle and the tip relief are parameterized. In the analysis, instantaneous contact loads and Hertz pressures are used in wear depth calculations. It is shown that as the amount of the tip relief increases, the wear depth, particularly at the beginning and end of the mesh, decreases. As the number of wear cycles increases, the effect of the tip relief modification on wear depths decreases slightly It was also shown that with an increase in tip relief, the dynamic load decreases. However if the amount of tip relief modification increases excessively the maximum dynamic load also increases. Therefore, an excessive increase in tip relief modification should be avoided, whereby the level of excessive increase depends on the tip relief configuration.
URI: https://doi.org/
https://www.proquest.com/docview/366699163
http://hdl.handle.net/11452/24390
ISSN: 1545-858X
Appears in Collections:Scopus
Web of Science

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