(a) Explanation Given information: The solid rod is made of an elastoplastic material. The torque ( T ) is increased in solid rod until the rod is fully plastic and then removed. Calculation: The elastic core radius ( ρ Y ) is zero. Calculate the magnitude of torque ( T ' ) after loading using the relation: T ' = 4 3 T Y Here, T Y is magnitude of elastic torque. Substitute ( π 2 ) c 3 τ Y in. for T Y . T ' = 4 3 ( π 2 ) c 3 τ Y = 2 π 3 c 3 τ Y Calculate the shearing stress ( τ ' ) at unloading using the relation: ( τ ' ) = T c J = T ' c J Here, c radius of solid rod and J is polar moment of inertia. Substitute π 2 c 3 for J and 2 π 3 c 3 τ Y for T ' . ( τ ' ) = 2 T ' π c 3 = 2 ( 2 π 3 c 3 τ Y ) π c 3 = 4 3 τ y The elastic core distance ρ is equal to c (b) To determine Find the magnitude of torque ( T 0 ) due to the stresses acting on portion of rod located within a circle of radius ( c 0 ) .

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ISBN: 9780100257061

Author: BEER

Publisher: YUZU

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Chapter 3.8, Problem 120P

(a)

To determine

Show the distribution of residual shearing stresses is as represented in figure.

(b)

To determine

Find the magnitude of torque (T0) due to the stresses acting on portion of rod located within a circle of radius (c0).

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Chapter 3.8, Problem 119P

Chapter 3.10, Problem 121P

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Show the distribution of residual shearing stresses is as represented in figure.

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Show the distribution of residual shearing stresses is as represented in figure.

Find the magnitude of torque (T0) due to the stresses acting on portion of rod located within a circle of radius (c0).

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Chapter 3 Solutions