Affiliation:
1. Mechanical and Materials Engineering, Vanderbilt University, Nashville, Tenn. 37235
Abstract
In a recent article [3], Savage, Coy, and Townsend presented a method for the optimal design of compact standard spur gear sets. They gave figures and design rules based on a design model that considered scoring, pitting, bending fatigue, and involute interference. The work reported here expands the Savage, Coy, and Townsend model to include the AGMA geometry and dynamic factors. The extension was possible, in part, due to the appearance of an article by Mitchiner and Mabie [7] which provided a computationally simple means to determine geometry factors. A design strategy is presented and illustrated by examples. The method is available from the second author in the form of a short Fortran program. The code is applicable to spur gear tooth systems where the addenda and dedenda are inversely proportional to diametral pitch (e.g., the standard tooth system). Other developments of the paper include a new derivation of the expression for pinion roll angles and an observation regarding the method of Mitchiner and Mabie [7] which allows a general form to be used in the determination of the geometry factor for any point during the contact cycle.
Cited by
21 articles.
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1. A comprehensive review on design and analysisof spur gears;International Journal on Interactive Design and Manufacturing (IJIDeM);2022-12-28
2. Design optimization of spur gear using SA and RCGA;Journal of the Brazilian Society of Mechanical Sciences and Engineering;2018-04-23
3. Design Optimization of Spur and Helical Gear Pairs;Applied Mechanics and Materials;2015-06
4. Exploring the geometry and material space in gear design;Engineering Optimization;2014-04-28
5. The Effect of Configuration in the Design of Geared Transmission Systems;Journal of Mechanical Design;2009-06-23