Explanation Given information: The radius of the steel shaft is 15 mm. The torque applied to the shaft is T = 2 kN ⋅ m . Calculation: The shaft is in pure shear. So, ε x = ε y = 0 . Find the polar moment of inertia. J = π r 4 2 Here, r is the radius of the shaft. Substitute 0.015 m for r . J = π × 0.015 4 2 = 7.952 × 10 − 8 m 4 Find the shear stress as shown below. T = τ J c Here, J is the polar moment of inertia, T is the torque, τ is the shear stress and c is the centroid of the shaft. Substitute 7.952 × 10 − 8 m 4 for J , 2 × 10 3 N ⋅ m for T , and 0.015 m for c . 2 × 10 3 = τ × 7.952 × 10 − 8 0.015 30 = 7.952 × 10 − 8 τ τ = 377.26 × 10 6 N / m 2 Consider shear modulus as 75 × 10 9 N / m 2 . Find the shear strain as shown below. γ x y = − τ G Here, γ x y is the shear strain and G is the shear modulus. Substitute 377.26 × 10 6 N / m 2 for τ and 75 × 10 9 N / m 2 for G . γ x y = − 377.26 × 10 6 75 × 10 9 = − 5.03 × 10 − 3 Find the strains in x ’ and y ’ direction as shown below

10th Edition

ISBN: 9780134319650

Author: Russell C. Hibbeler

Publisher: PEARSON

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Axial Load

When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial …

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Chapter 10.6, Problem 10.51P

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The strains in the x′ and y′ direction.

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Chapter 10.6, Problem 10.50P

Chapter 10.6, Problem 10.52P

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The strains in the x ′ and y ′ direction.

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