A thin-walled cylindrical pressure vessel of radius r is subjected simultaneously to internal gas pressure P and a compressive force F acting at the ends (see figure 1) (a) what should be the magnitude of the force F in order to produce pure shear in the wall of the cylinder (b) compute the required thickness of the vessel if force F=190 kN, internal pressure P=12MPa, inner diameter=200mm, and allowable normal and shear stresses are 110MPa and 60MPa, respectively?

Elements Of Electromagnetics
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ISBN:9780190698614
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Question 1

A thin-walled cylindrical pressure vessel of radius r is subjected simultaneously to internal gas pressure P and a compressive force F acting at the ends (see figure 1)

(a) what should be the magnitude of the force F in order to produce pure shear in the wall of the cylinder

(b) compute the required thickness of the vessel if force F=190 kN, internal pressure P=12MPa, inner diameter=200mm, and allowable normal and shear stresses are 110MPa and 60MPa, respectively?

 

 

Question 1.
A thin-walled cylindrical pressure vessel of radius r is subjected simultaneously to interr
pressure p and a compressive force F acting at the ends (see figure 1).
(a) What should be the magnitude of the force F in order to produce pure shear in the
the cylinder?
(b) Compute the required thickness of the vessel if Force F = 190KN, internal pressure
MPa, inner diameter = 200 mm, and allowable normal and shear stresses are 110 MPa
MPa, respectively?
Figure 1: cylindrical pressure vessel
Transcribed Image Text:Question 1. A thin-walled cylindrical pressure vessel of radius r is subjected simultaneously to interr pressure p and a compressive force F acting at the ends (see figure 1). (a) What should be the magnitude of the force F in order to produce pure shear in the the cylinder? (b) Compute the required thickness of the vessel if Force F = 190KN, internal pressure MPa, inner diameter = 200 mm, and allowable normal and shear stresses are 110 MPa MPa, respectively? Figure 1: cylindrical pressure vessel
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