Elastic constants for aluminum are given by Young's modulus of 70GPA and Poisson's ratio of 0.35. (a) The aluminum is subjected to in-plane loading so that o=o, =0, =0. Strain measured in the plate are e 0.002, s 0.001 and &=0.001. Determine o, =.1K GPa, and o,=.0>b/GPa. (b) If an aluminum solid of volume 100 cm' was subjected to a hydrostatic pressure p=10MPA, the change in volume is 1cm'.
Elastic constants for aluminum are given by Young's modulus of 70GPA and Poisson's ratio of 0.35. (a) The aluminum is subjected to in-plane loading so that o=o, =0, =0. Strain measured in the plate are e 0.002, s 0.001 and &=0.001. Determine o, =.1K GPa, and o,=.0>b/GPa. (b) If an aluminum solid of volume 100 cm' was subjected to a hydrostatic pressure p=10MPA, the change in volume is 1cm'.
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![Elastic constants for aluminum are given by Young's modulus of 70GPA and
Poisson's ratio of 0.35.
(a) The aluminum is subjected to in-plane loading so that o =o, =0, =0. Strain
measured in the plate are & =0.002, 8, =0.001 and &, =0.001.
Determine o, = _.1K GPa, and o,=.0>b/GPa.
(b) If an aluminum solid of volume 100 cm was subjected to a hydrostatic pressure
p=10MPA, the change in volume is
%3D
%3D
ki cm.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3e433646-ff68-4875-bda1-3895d4367c22%2F269bbbc0-b9a7-4a72-a8c4-72ee4485a76a%2Fr3f4uc7_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Elastic constants for aluminum are given by Young's modulus of 70GPA and
Poisson's ratio of 0.35.
(a) The aluminum is subjected to in-plane loading so that o =o, =0, =0. Strain
measured in the plate are & =0.002, 8, =0.001 and &, =0.001.
Determine o, = _.1K GPa, and o,=.0>b/GPa.
(b) If an aluminum solid of volume 100 cm was subjected to a hydrostatic pressure
p=10MPA, the change in volume is
%3D
%3D
ki cm.
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