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18 July, 22:35

A viscoelastic polymer that can be assumed to obey the Boltzmann superposition principle is subjected to the following deformation cycle. At a time, t = 0, a tensile stress of 20 MPa is applied instantaneously and maintained for 100 s. The stress is then removed at a rate of 0.2 MPa s-1 until the polymer is unloaded. If the creep compliance of the material is given by

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  1. 18 July, 22:42
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    The question is incomplete. The complete question is:

    A viscoelastic polymer that can be assumed to obey the Boltzmann superposition principle is subjected to the following deformation cycle. At a time, t = 0, a tensile stress of 20 MPa is applied instantaneously and maintained for 100 s. The stress is then removed at a rate of 0.2 MPa s-1 until the polymer is unloaded. If the creep compliance of the material is given by:

    J (t) = Jo (1 - exp (-t/to))

    Where,

    Jo = 3m^2 / GPA

    to = 200s

    Determine

    a) the strain after 100's (before stress is reversed)

    b) the residual strain when stress falls to zero.

    Answer:

    a) - 60GPA

    b) 0

    Explanation:

    Given t = 0,

    σ = 20Mpa

    Change in σ = 0.2Mpas^-1

    For creep compliance material,

    J (t) = Jo (1 - exp (-t/to))

    J (t) = 3 (1 - exp (-0/100)) = 3m^2/Gpa

    a) t = 100s

    E (t) = ΔσJ (t - Jo)

    = 0.2 * 3 (100 - 200)

    = 0.6 (-100)

    = - 60 GPA

    Residual strain, σ = 0

    E (t) = Jσ (Jo) ∫t (t - Jo) dt

    3 * 0 * 200 ∫t (t - Jo) dt

    E (t) = 0
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