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23 February, 06:05

In an aligned and continuous glass fiber-reinforced nylon 6,6 composite, the fibers are to carry 94 % of a load applied in the longitudinal direction. Modulus of Elasticity [GPa (psi) ] Tensile Strength [MPa (psi) ] Glass fiber 72.5 (10.5 * 106) 3400 (4.9 * 105) Nylon 6,6 3.0 (4.35 * 105) 76 (11,000) (a) Using the data provided, determine the volume fraction of fibers that will be required.

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  1. 23 February, 08:19
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    volume fraction of fibers that will be required; V_f = 0.397

    Explanation:

    We are given;

    Modulus of Elasticity of glass fibre; E_f = 72.5 GPa

    Modulus of Elasticity of nylon 6,6; E_m = 3 GPa

    %of load fibres are able to carry; F_f = 94% = 0.94

    Now, the volume fraction can be determined from the formula;

    F_f/F_m = (E_f•V_f) / (E_m (1 - V_f))

    Where F_m is given by;

    F_m = (1 - F_f). Thus, we now have;

    F_f / (1 - F_f) = (E_f•V_f) / (E_m (1 - V_f))

    Where;

    V_f is volume fraction.

    The other terms are stated above.

    Thus, plugging in the relevant values to obtain;

    0.94 / (1 - 0.94) = (72.5•V_f) / (3 (1 - V_f))

    15.667 = (72.5•V_f) / (3 - 3V_f))

    This give;

    15.667 (3 - 3V_f)) = (72.5•V_f)

    47 - 46V_f = (72.5•V_f)

    72.5V_f + 46V_f = 47

    118.5V_f = 47

    V_f = 47/118.5

    V_f = 0.397
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