Influence of Addendum Modification Factor on Root Stresses in Normal Contact Ratio Asymmetric Spur Gears
Subject Areas : Mechanical Engineering
R Prabhu Sekar
1
,
R Ravivarman
2
1 - Mechanical Engineering Department, Motilal Nehru National Institute of Technology, Allahabad, India
2 - Research Scholar Department of Mechanical Engineering, Pondicherry Engineering college, Pondicherry, India
Keywords:
Abstract :
[1] Buckingham E., 1988, Analytical Mechanics of Gears, Dover Publications, Inc.
[2] Kapelevich A., 2000, Geometry and design of involute spur gears with asymmetric teeth, Mechanism and Machine Theory 35: 117-130.
[3] Muni D.V., kumar V.S., Muthuveerappan G., 2007, Optimization of asymmetric spur gear drives for maximum bending strength using direct gear design method, Mechanics based design of structures and machines 35: 127-145.
[4] Yang S.C., 2007, Study on internal gear with asymmetric involute teeth, Mechanism and Machine Theory 42: 974-994.
[5] Muni D.V., Muthuveerappan G., 2009, A comprehensive study on the asymmetric internal spur gear drives through direct and conventional gear design, Mechanics Based Design of Structures and Machines 37: 431-461.
[6] Karat F., Ekwaro-Osire S., Cavdar K., Babalik F.C., 2008, Dynamic analysis of involute spur gears with asymmetric teeth, International Journal of Mechanical Sciences 50: 1598-1610.
[7] Costopoulos Th., Spitas V., 2009, Reduction of gear fillet stresses using one side asymmetric teeth, Mechanism and Machine Theory 44: 1524-1534.
[8] Alipiev O., 2011, Geometric design of involute spur gear drives with symmetric and asymmetric teeth using the realized potential method, Mechanism and Machine Theory 46: 10-32.
[9] Sekar P., Muthuveerappan G., 2014, Load sharing based maximum fillet stress analysis of asymmetric helical gear designed through direct design method, Mechanism and Machine Theory 80: 84-102.
[10] Mohan N.A., Senthilvelan S., 2014, Preliminary bending fatigue performance evaluation of asymmetric composite gears, Mechanism and Machine Theory 78: 92-104.
[11] Marimuthu P., Muthuveerappan G., 2016, Design of asymmetric normal contact ratio spur gear drive through direct design to enhance the load carrying capacity, Mechanism and Machine Theory 95: 22-34.
[12] Marimuthu P., Muthuveerappan G., 2016, Investigation of load carrying capacity of asymmetric high contact ratio spur gear based on load sharing using direct gear design approach, Mechanism and Machine Theory 96: 52-74.
[13] Thomas B., Sankaranarayanasamy K., Ramachandra S., Kumar S., 2018, Search method applied for gear tooth bending stress prediction in normal contact ratio asymmetric spur gears, Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science.
[14] Shuai M., Shuai M., Geoguang J., Jiabai G., 2018, Design principle and modeling method of asymmetric involute internal helical gears, Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science.
