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18 November, 09:48

The elastic modulus for hydroxyapatite [Ca5 (PO4) 3 (OH) ] is 98.3 GPa, which possesses a 10 vol% porosity. Calculate the following:

a. Elastic modulus E0 for the nonporous ceramic material.

b. The elastic modulus for the same sample with 50 vol% porosity. With a larger porosity, will you expect Young's modulus to increase or decrease? Why?

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  1. 18 November, 11:33
    0
    Eo = 120.02 GPa

    Eo = 357.454 GPa

    Explanation:

    given data

    elastic modulus E = 98.3 GPa

    porosity P = 10 % = 0.1

    solution

    we know that young modulus of porous material that is express as

    young modulus of porous material = Eo (1 - 1.9 P + 0.9 P²) ... 1

    here Eo is young modulus of non porous material and P is porosity so we get here Eo

    98.3 = Eo (1 - 1.9 * (0.1) + 0.9 * (0.1) ²)

    Eo = 120.02 GPa

    and

    now for P is 0.5 for the this same material

    put value in equation 1

    98.3 = Eo (1 - 1.9 * (0.5) + 0.9 * (0.5) ²)

    Eo = 357.454 GPa

    so here young modulus increase will porosity.

    but in generally elastic modulus of material will decrease

    so here P is 0.1 an P is 0.5 consider same classic modulus 98.3 GPa

    so value will increase
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Home » Engineering » The elastic modulus for hydroxyapatite [Ca5 (PO4) 3 (OH) ] is 98.3 GPa, which possesses a 10 vol% porosity. Calculate the following: a. Elastic modulus E0 for the nonporous ceramic material. b.
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