(a) determine the maximum pressure, p, that could be carried by the tube for yielding the wall material based on the Maximum-Shear-Stress theory (Tresca). (b) Using the result of part (a), calculate the stresses in the tube wall material at both internal and external radius positions. Sketch the corresponding stress element. (c) Draw the yield locus in the principal stress space (0 versus 02) and indicate the yield stress value. Show, on the diagram, the state of the stress as calculated in part (b).
(a) determine the maximum pressure, p, that could be carried by the tube for yielding the wall material based on the Maximum-Shear-Stress theory (Tresca). (b) Using the result of part (a), calculate the stresses in the tube wall material at both internal and external radius positions. Sketch the corresponding stress element. (c) Draw the yield locus in the principal stress space (0 versus 02) and indicate the yield stress value. Show, on the diagram, the state of the stress as calculated in part (b).
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter8: Applications Of Plane Stress (pressure Vessels, Beams, And Combined Loadings)
Section: Chapter Questions
Problem 8.2.5P: A hemispherical window (or viewport) in a decompression chamber (see figure) is subjected to an...
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