EXPERIMENTAL AND NUMERICAL STRESS ANALYSIS OF INVOLUTE SPLINED SHAFT

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Majid H. Faidh-Allah
Zainab Amjed Abdul Khalik

Abstract

In this study, the induced splined shaft teeth contact and bending stresses have been investigated numerically using finite element method(Ansys package version 11.0) with changing the most effecting design parameter,(pressure angle, teeth number, fillet radius and normal module), for internal and external splined shaft. Experimental work has been achieved using two dimensional photoelastic techniques to get the contact and bending stresses; the used material is Bakelite sheet type “PSM-4”.
The results of numerical stress analysis indicate that, the increasing of the pressure angle and fillet radius decrease the bending stress and increase the contact stress for both internal and external spline shaft teeth while the increasing of the normal module and teeth number decrease the contact and bending stresses 

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How to Cite
“EXPERIMENTAL AND NUMERICAL STRESS ANALYSIS OF INVOLUTE SPLINED SHAFT” (2012) Journal of Engineering, 18(04), pp. 415–422. doi:10.31026/j.eng.2012.04.03.
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How to Cite

“EXPERIMENTAL AND NUMERICAL STRESS ANALYSIS OF INVOLUTE SPLINED SHAFT” (2012) Journal of Engineering, 18(04), pp. 415–422. doi:10.31026/j.eng.2012.04.03.

Publication Dates

References

A.Tjernberg, “Load Distribution and Pitch Errors in a Spline Coupling”. Journal of materials and design, No. 22, Pages 259-266, 2001.

D. A. Baker, “A Finite Element Study of Stresses in Stepped Splined Shafts, and Partially Splined Shaft under Bending, Torsion, and Combined Loadings”. A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Mechanical Engineering/ Virginia Polytechnic Institute and State University 1999.

D. C. H. Yang and SH. H. Tong, “On the Profile Design of Transmission Splines and Keys”, Journal of Mechanism and Machine Theory, No.42, Pages 82-87, 2007.

D. L. Hitt, “Notes on Quantitative Photoelastic Analysis”. ME124, 2003.

E. J. Hearn, “Mechanics of Materials”.International series on material science and technology, VOL. 19, 1977.

F. James Doyle and James W. Phillips,“Manual on Experimental Stress Analysis”. Fifth Edition, Society for Experimental Mechanics,1982.

H. Tea Cong, “A Design Support System Gear Drive”. Dep. Mech. Hanyang Univ., Korea,1996.

H.Yoshitake,”Photoelastic Stress Analysis of the Spline Shaft”. Japan society of Mechanical Engineers, Vol.5, No17, Pages195-201, 1962.

J. F. Doyle, “Modern Experimental Stress Analysis”. Purdue University, Lafayette, USA,2004.

J.Tombasco, “Photoelastic Dynamic Stress Analysis using Synchronized Strobe Techniques”. Internet / Keywords: Photoelastic stress analysis, 2004.

R. Errichello, “Bending Stress in Gear Teeth Having Circular Arc Profiles- Part 2: Experimental Investigation”. Transaction of the ASME, Journal of Mechanics Design, Vol.100, pages 395- 404, 1978.

Shigley, “Shigley’s Mechanical Engineering Design”. Eighth Edition, McGraw -Hill Companies, 2008.

U. Burgtorf, P. Dietz and M. Garzke, “Calculation of Involute Splines under Elastic Material Behaviour”. International design conference, Germany, 1998.

V. Nikolic, “The Analysis of Contact Stress on Meshed Teeth’s Flank Along the Path of Contact for a Tooth Pair”. Series: Mechanics, Automotive, control and robotic, Vol. 15, pages 1055-1066, 2003

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