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A study on the bending stress of the hollow sun gear in a planetary gear train
Kyung-Eun Ko/Do-Hyeong Lim,/Pan-Young Kim/Jinsoo Park
The Journal of Mechanical Science and Technology, vol. 24, no. 1, pp.29-32, 2010
Abstract : Generally, planetary gear type traveling reduction gear is composed of multiple planetary gear stages and has a hollow sun gear in the
last stage planetary gear. In designing reduction gear, it is important to evaluate accurately the bending stress at the tooth root of the sun
gear as the sun gear is the weakest component in the reduction gear system. Although bending stress can be calculated easily using gear
standard codes such as the American Gear Manufacturers Association (AGMA) and International Organization for Standardization (ISO)
6336 for almost all gears, meticulous calculation is needed for the hollow sun gear because of its low backup ratio (rim thickness divided
by tooth height) and comparatively large root fillet radius. In this study, a finite element analysis (FEA) is carried out to investigate the
effect of rim thickness and root fillet radius on bending stress at the tooth root of the hollow sun gear. In standard codes, bending stress at
the tooth root is calculated linearly with a constant slope for the backup ratio below 1.2. However, the effect of the rim thickness on
bending stress is more complex in the planetary gear system. Bending stresses calculated by FEA with various backup ratios and root
filler radii are compared with the bending stresses calculated by the standard codes.
Keyword : AGMA; Backup ratio; Bending stress; Fillet radius; Hollow sun gear; ISO; Rim thickness |
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