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Thermal Loads in Gasketed Joints
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English
Abstract
Thermal stresses have been evaluated in a nonmetallic gasket specimen by an experiment which employs a new thin foil stainless steel, compression resistant, heater of low heat capacity. Experimental results are predictable from a theoretically derived equation. An equation has also been derived for the thermal loads in a gasketed joint assembly. It considers the coefficients of linear expansion and stiffness coefficients for the bolt, gasket, and flange. The equation is discussed as a part of a rational engineering design procedure for calculating thermal loads in a joint assembly.
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Citation
Smoley, E., Kottmeyer, R., and Kessler, F., "Thermal Loads in Gasketed Joints," SAE Technical Paper 680026, 1968, https://doi.org/10.4271/680026.Also In
References
- Strainsert Co. Bryn Mawr, Pa
- Hager N. E. Jr. “Thin Foil Heat Meter.” Rev. Sci. Instr. 36 11 1965 1564 1570
- Hager N. E. Jr. “Absolute Differential Radiometer.” Rev. Sci. Instr. 34 9 1963 1028 1034
- Hager N. E. Jr. “Thin Heater Calorimeter.” Rev. Sci. Instr. 35 5 1964 618 624
- Hager N. E. Jr. “Thin-Heater Thermal Conductivity Apparatus.” Rev. Sci. Instr. 31 2 1960 177 185
- Hodgman C. D. “Handbook of Chemistry and Physics.” Cleveland Chemical Rubber Publishing Co. 31st Edition 1771 1734
- Timoshenko S. MacCullough G. H. “Elements of Strength of Materials,” New York D. Van Nostrand Co., Inc. 1940 21