The rectangular cross section tube shown in Figure1 is subjected to a load P = 1200 N in positive X- direction, and load F = 799 N in the negative Y – direction. The tube made from AISI1020 steel. Use analytical method to calculate the effective stress (Von Misses) , principle stresses and maximum shear stress at point A, compare your results with Mohr circle. Determine the factor of safety at point A ( use distortion energy theory and maximum shear stress theory)
The rectangular cross section tube shown in Figure1 is subjected to a load P = 1200 N in positive X- direction, and load F = 799 N in the negative Y – direction. The tube made from AISI1020 steel. Use analytical method to calculate the effective stress (Von Misses) , principle stresses and maximum shear stress at point A, compare your results with Mohr circle. Determine the factor of safety at point A ( use distortion energy theory and maximum shear stress theory)
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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The rectangular cross section tube shown in Figure1 is subjected to a load P = 1200 N in positive X- direction, and load F = 799 N in the negative Y – direction. The tube made from AISI1020 steel.
- Use analytical method to calculate the effective stress (Von Misses) , principle stresses and maximum shear stress at point A, compare your results with Mohr circle.
- Determine the factor of safety at point A ( use distortion energy theory and maximum shear stress theory)
- If factor of safety required to be 2, size the tube by find the dimensions of the cross section to nearest standard value.
Transcribed Image Text:F
A
P
F
A
P
200 mm
20
50 mm
3
SECTION A-A
A
SCALE 1:1.5
Figure 1
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