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An Axisymmetric Finite Element Analysis of the Mechanical and Thermal Stresses in Brake Drums
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English
Abstract
A linear elastic finite element analysis of brake drums is presented. The axisymmetry is assumed for the geometry of the structure; however the loads may be arbitrary. Laboratory measurements of the mechanical stresses support the computational analysis.
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Authors
Citation
Fensel, P., "An Axisymmetric Finite Element Analysis of the Mechanical and Thermal Stresses in Brake Drums," SAE Technical Paper 740321, 1974, https://doi.org/10.4271/740321.Also In
References
- Fazekas G.A.G., “Temperature Gradients and Heat Stresses in Brake Drums”, SAE Transactions, Vol. 61, pp. 279-308, 1953.
- Clough R.W. and Rashid Y., “Finite Element Analysis of Axisymmetric Solids”, Journal of the Engineering Mechanics Division of ASCE, pp. 71-85, February 1965.
- Rashid Y.R., “Analysis of Axisymmetric Composite Structures by the Finite Element Method”, Nuclear Engineering and Design, Vol. 3, pp. 163-182, 1966.
- Wilson E.L., “Structural Analysis of Axisymmetric Solids,” AIAA Journal, Vol. 3, No. 12, pp. 2269-2274, December 1965.
- Wilson E.L. and Nickell R.E., “Application of the Finite Element Method to Heat Conduction Analysis”, Nuclear Engineering and Design, Vol. 4, pp. 276-286, 1966.
- Stroh G.B., Lawrence H.H. and Deibel W.T., “Effects of Shoe Force Geometry on Heavy Duty Internal Shoe Brake Performance”, SAE paper 680432.
- Lipson C. and Juvinall R.C., Handbook of Stress and Strength, Macmillan Company, New York, 1963.