Answer the following questions based on the given information in the table and further calculation (if needed for any missing parameter, e.g. strain at yield point). Assume all metals started with the same shape and size before the tensile tests occurred. Material A B C D E Yield Strength (MPa) 105 600 430 355 Tensile Strength (MPa) 135 850 535 365 Fracture before yielding The material that experienced the greatest percent reduction in area material The material that experienced the greatest percent reduction in area has The material that experienced the largest change in shape before plastic deformation occurred is material Strain at Fracture [Choose] [Choose] [Choose ] 0.45 0.15 0.20 0.25 V Fracture Strength (MPa) Elastic Modulus (GPa) 110 750 500 280 655 155 295 310 145 345 Strain at Yield Point

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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510 MPa
0.20 m
draw a line from 0.002 strain parallel to linear portion of the plot and intercept the plot
400 MPa
not change
slope of linear part of the plot
maximum strain
510 GPa
200 MPa
final fracture point of the curve
300 GPa
draw a line from 0.002 strain straight up (parallel to y axis) and intercept the plot
300 MPa
200 GPa
0.185
0.110
400 GPa
linear portion shift to curve line
0.20 mm
4
Transcribed Image Text:[Choose ] 510 MPa 0.20 m draw a line from 0.002 strain parallel to linear portion of the plot and intercept the plot 400 MPa not change slope of linear part of the plot maximum strain 510 GPa 200 MPa final fracture point of the curve 300 GPa draw a line from 0.002 strain straight up (parallel to y axis) and intercept the plot 300 MPa 200 GPa 0.185 0.110 400 GPa linear portion shift to curve line 0.20 mm 4
Answer the following questions based on the given information in the table and further calculation (if needed for any missing parameter, e.g. strain at yield point). Assume all metals
started with the same shape and size before the tensile tests occurred.
Material
A
B
C
D
E
Yield Strength (MPa)
105
600
430
355
The material that experienced the greatest percent reduction in area is material
The hardest material is material
The hardest material has
Tensile Strength (MPa)
The material that experienced the greatest percent reduction in area has
135
850
The material that experienced the largest change in shape before plastic
deformation occurred is material
The stiffest material is material
The stiffest material has
535
365
Fracture before yielding
The material that experienced the largest change in shape before plastic
deformation occurred has
Strain
at Fracture
[Choose ]
[Choose ]
[Choose ]
[Choose ]
[Choose ]
[Choose ]
[Choose ]
[Choose ]
0.45
0.15
0.20
0.25
Fracture Strength (MPa) Elastic Modulus (GPa)
110
750
500
280
655
155
295
310
145
345
Strain
at Yield Point
Transcribed Image Text:Answer the following questions based on the given information in the table and further calculation (if needed for any missing parameter, e.g. strain at yield point). Assume all metals started with the same shape and size before the tensile tests occurred. Material A B C D E Yield Strength (MPa) 105 600 430 355 The material that experienced the greatest percent reduction in area is material The hardest material is material The hardest material has Tensile Strength (MPa) The material that experienced the greatest percent reduction in area has 135 850 The material that experienced the largest change in shape before plastic deformation occurred is material The stiffest material is material The stiffest material has 535 365 Fracture before yielding The material that experienced the largest change in shape before plastic deformation occurred has Strain at Fracture [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] 0.45 0.15 0.20 0.25 Fracture Strength (MPa) Elastic Modulus (GPa) 110 750 500 280 655 155 295 310 145 345 Strain at Yield Point
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