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28 August, 07:39

A paper clip is made of wire 0.5 mm in diameter. If the original material from which the wire is made is a rod 25 mm in diameter, calculate the longitudinal engineering and true strains that the wire has undergone during processing

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  1. 28 August, 09:09
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    longitudinal engineering strain = 624.16

    true strain is 6.44

    Explanation:

    given data

    diameter d1 = 0.5 mm

    diameter d2 = 25 mm

    to find out

    longitudinal engineering and true strains

    solution

    we know both the volume is same

    so

    volume 1 = volume 2

    A*L (1) = A*L (2)

    (π/4 * d1²) * L (1) = (π/4 * d2²) * L (2)

    (π/4 * 0.5²) * L (1) = (π/4 * 25²) * L (2)

    0.1963 * L (1) = 122.71 * L (2)

    L (1) / L (2) = 122.71 / 0.1963 = 625.16

    and we know longitudinal engineering strain is

    longitudinal engineering strain = L (1) / L (2) - 1

    longitudinal engineering strain = 625.16 - 1

    longitudinal engineering strain = 624.16

    and

    true strain is

    true strain = ln (L (1) / L (2))

    true strain = ln (625.16)

    true strain is 6.44
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