A thin-walled closed cylinder (radius r of 400 mm; wall thickness t of 20 mm), is simultaneously subjected to an internal pressure p of 1.2 MPa, an axial force F (in tension or in compression) and at a torque T of 100 kN*m. Specify for the following two cases, and considering an FS of 2.8, the minimum uniaxial flow stress of the material so that plastic deformations in the cylinder are avoided. a) F = 160 kN in tension b) F = 800 kN in compression
A thin-walled closed cylinder (radius r of 400 mm; wall thickness t of 20 mm), is simultaneously subjected to an internal pressure p of 1.2 MPa, an axial force F (in tension or in compression) and at a torque T of 100 kN*m. Specify for the following two cases, and considering an FS of 2.8, the minimum uniaxial flow stress of the material so that plastic deformations in the cylinder are avoided. a) F = 160 kN in tension b) F = 800 kN in compression
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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Question
10
![A thin-walled closed cylinder (radius r of 400
mm; wall thickness t of 20 mm), is
simultaneously subjected to an internal
pressure p of 1.2 MPa, an axial force F (in
tension or in compression) and at a torque T
of 100 kN*m. Specify for the following two
cases, and considering an FS of 2.8, the
minimum uniaxial flow stress of the material
so that plastic deformations in the cylinder are
avoided. a) F = 160 kN in tension b) F = 800
kN in compression
Problèmes
621
- 20 mm
r = 400 mm
T.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F831af887-ed6f-4303-bd9f-341b82ed7440%2F77697c12-e107-4898-8533-f0860823cb2e%2Ftbvinxq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A thin-walled closed cylinder (radius r of 400
mm; wall thickness t of 20 mm), is
simultaneously subjected to an internal
pressure p of 1.2 MPa, an axial force F (in
tension or in compression) and at a torque T
of 100 kN*m. Specify for the following two
cases, and considering an FS of 2.8, the
minimum uniaxial flow stress of the material
so that plastic deformations in the cylinder are
avoided. a) F = 160 kN in tension b) F = 800
kN in compression
Problèmes
621
- 20 mm
r = 400 mm
T.
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