Two steel rings of radial thickness 30 mm, com- mon radius 70 mm, and length 40 mm are shrunk together to form a compound ring. It is found that the axial force required to separate the rings is 150 kN. Determine the shrinkage pressure at the mating sur- faces and the shrinkage allowance. E friction between the junction surfaces of the two rings is 0-15. 208 GN/m2. The coefficient of %3D

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Two steel rings of radial thickness 30 mm, com-
mon radius 70 mm, and length 40 mm are shrunk together to form a
compound ring. It is found that the axial force required to separate the
rings is 150 kN. Determine the shrinkage pressure at the mating sur-
faces and the shrinkage allowance. E = 208 GN/m². The coefficient of
friction between the junction surfaces of the two rings is 0·15.
Transcribed Image Text:Two steel rings of radial thickness 30 mm, com- mon radius 70 mm, and length 40 mm are shrunk together to form a compound ring. It is found that the axial force required to separate the rings is 150 kN. Determine the shrinkage pressure at the mating sur- faces and the shrinkage allowance. E = 208 GN/m². The coefficient of friction between the junction surfaces of the two rings is 0·15.
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