A horizontal rigid bar c-c is subjecting specimen a to tension and specimen b frictionless compression, such that the bar remains horizontal (see figure below). The force F is located at a distance ratio of 3:1. Both specimens have an original cross-sectional area of 1 x 104 m² and the original lengths are a = 200 mm and b = 115 mm. The material for specimen a has a true stress-true strain curve of o = (700 MPa)0.5. Plot the true stress-true strain curve that the material for specimen b should have for the bar to remain horizontal. w X a 3 F 1 b w

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A horizontal rigid bar c-c is subjecting specimen a to tension and specimen b
frictionless compression, such that the bar remains horizontal (see figure below).
The force F is located at a distance ratio of 3:1. Both specimens have an original
cross-sectional area of 1 x 10-4 m² and the original lengths are a = 200 mm and b
115 mm. The material for specimen a has a true stress-true strain curve of o =
(700 MPa)ε0.5. Plot the true stress-true strain curve that the material for specimen
b should have for the bar to remain horizontal.
=
w
X
a
3
F
1
b
w
Transcribed Image Text:A horizontal rigid bar c-c is subjecting specimen a to tension and specimen b frictionless compression, such that the bar remains horizontal (see figure below). The force F is located at a distance ratio of 3:1. Both specimens have an original cross-sectional area of 1 x 10-4 m² and the original lengths are a = 200 mm and b 115 mm. The material for specimen a has a true stress-true strain curve of o = (700 MPa)ε0.5. Plot the true stress-true strain curve that the material for specimen b should have for the bar to remain horizontal. = w X a 3 F 1 b w
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