The short cylindrical block having an original diameter of 1 cm and a length of 5 cm, is placed in the smooth jaws of a vise and squeezed until the axial load applied is 3000 N. The material of the block has the stress-strain diagram shown blow. a (MPa) 500 3000 N 3000 N 450 e (mm/mm) 0,00225 0,03 (a) Determine the modulus of elasticity for the used materi (b) Determine the decrease in its length. (c) If the Poisson's Ratio of the material is v = o.35, Determine its new diameter.
The short cylindrical block having an original diameter of 1 cm and a length of 5 cm, is placed in the smooth jaws of a vise and squeezed until the axial load applied is 3000 N. The material of the block has the stress-strain diagram shown blow. a (MPa) 500 3000 N 3000 N 450 e (mm/mm) 0,00225 0,03 (a) Determine the modulus of elasticity for the used materi (b) Determine the decrease in its length. (c) If the Poisson's Ratio of the material is v = o.35, Determine its new diameter.
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Transcribed Image Text:The short cylindrical block having an original diameter of 1 cm and a length of 5 cm, is
placed in the smooth jaws of a vise and squeezed until the axial load applied is 3000 N. The
material of the block has the stress-strain diagram shown blow.
r (MPa)
500
3000 N
3000 N
450
(mm/mm).
0,00225
0.03
(a)
Determine the modulus of elasticity for the used material.
(b) Determine the decrease in its length.
(c) If the Poisson's Ratio of the material is v = o.35, Determine its new diameter.
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