Problem 1: A thin-walled cylindrical pressure vessel, 10 in. in mean diameter and 0.2 in. in wall thickness, contains an internal pressure of 1,500 psi. The ends of the pressure vessel are closed. An axial compressive force P of 10,000 lb. and a positive bending moment M of 10,000 lb-ft. are acting at the ends of the pressure vessel. strength of the pressure vessel material is 33,000 psi. The yield (a) Draw a stress element on the top and the bottom of the vertical diameter at the mid-length of the pressure vessel. (b) Draw a stress element on the front and the back of the horizontal diameter at the mid-length of the pressure vessel. (c) Check if yielding will occur at any of these four locations.
Problem 1: A thin-walled cylindrical pressure vessel, 10 in. in mean diameter and 0.2 in. in wall thickness, contains an internal pressure of 1,500 psi. The ends of the pressure vessel are closed. An axial compressive force P of 10,000 lb. and a positive bending moment M of 10,000 lb-ft. are acting at the ends of the pressure vessel. strength of the pressure vessel material is 33,000 psi. The yield (a) Draw a stress element on the top and the bottom of the vertical diameter at the mid-length of the pressure vessel. (b) Draw a stress element on the front and the back of the horizontal diameter at the mid-length of the pressure vessel. (c) Check if yielding will occur at any of these four locations.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:12:11 d a y
O X O F 23%.
Problem 1:
A thin-walled cylindrical pressure vessel,
10 in. in mean diameter and 0.2 in. in wall
thickness, contains an internal pressure of
1,500 psi. The ends of the pressure vessel
are closed. An axial compressive force P
of 10,000 lb. and a positive bending
moment M of 10,000 lb-ft. are acting at the
ends of the pressure vessel.
strength of the pressure vessel material is
33,000 psi.
The yield
(a) Draw a stress element on the top
and the bottom of the vertical
diameter at the mid-length of the
pressure vessel.
(b) Draw a stress element on the front
and the back of the horizontal
diameter at the mid-length of the
pressure vessel.
(c) Check if yielding will occur at any
of these four locations.
Pressure
P
M
M
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