Q2A short cylindrical billet 16 mm diameter and 40 mm gauge length iselongated under tensile load to 50 mm and then compressed to 36 mm. The materialcharacteristic curve under axial loading is given by (o = 400ε0.4 MPa).Ignoring the elastic deformations and Bauschinger effect, determine:(a) the diameter of the billet after elongation(b) the final diameter of the billet after recompression(c) the equivalent strain and new yield stress of the elongated billet(d) the final equivalent strain and the yield stress after recompression to 36 mm(e) the force required to elongate the billet to 50 mm(f) the force needed to recompress the billet back to 36 mm

Dear Student since you have posted a question with multiple sub-parts, but as per Q& A…

Answered: Q2 A short cylindrical billet 16 mm…

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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For a given homogeneous, isotropic, linearly elastic material, E = 15e6 psi and v = 0.3. Solve for the shear modulus. 2.1.1 Homogeneous, isotropic, linearly elastic materials For specimens undergoing small deformations, the stress-strain diagram often ex- hibits a linear behavior. Although this is a very crude approximation to the behavior of actual materials, it is a convenient assumption that is often used for preliminary evaluation. A linear relationship between stress and strain can be expressed as 01 = E €1, (2.1) where the coefficient of proportionality, E, is called Young's modulus or modulus of elasticity. Since strains are non-dimensional quantities, this coefficient has the same units as stress quantities, i.e., Pa. This linear relationship is known as Hooke's law. The elongation of a bar in the direction of the applied stress is accompanied by a lateral contraction that is also proportional to the applied stress. The resulting defor- mations for this uniaxial state of stress…
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