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11 November, 00:21

A sheet of BCC iron 2.0-mm thick was exposed to a carburizing atmosphere on one side and a decarburizing atmosphere on the other side at 725°C. After having reached steady state, the iron was quickly cooled to room temperature. The carbon concentrations at the two surfaces were determined to be 0.012 and 0.0074 wt%. Calculate the diffusion coefficient if the diffusion flux is 2.2 * 10-8 kg/m2-s, given that the densities of carbon and iron are 2.25 and 7.87 g/cm3, respectively.

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  1. 11 November, 02:21
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    The diffusion coefficient is 1.22 * 10 ^-10 m²/s

    Explanation:

    Step 1: Data given

    A sheet of BCC iron 2.0-mm thick

    The diffusion flux is 2.2 * 10^-8 kg/m²*s

    Density of Carbon = 2.25 g/cm³

    Density of Iron = 7.87 g/cm³

    Step 2: Define the formula for the carbon concentrations

    C"c = Cc / ((Cc/rc) + (Cfe/rfe))

    with C"c = The concentration carbon

    with Cc = The % concentration

    with rc = The density of Carbon

    with Cfe = The % concentration iron

    with rfe = the density of Iron

    Step 3: For 0.012 wt% C

    C"c = 0.012 / ((0.012/2.25) + (99.988/7.87)) * 10³

    C"c = 0.944 kg C / m³

    Step 4: For 0.0074 wt% C

    C"c = 0.0074 / ((0.0074/2.25) + (99.9926/7.87)) * 10³

    C"c = 0.5823 kg C/m³

    Step 5: Calculate the diffusion coefficient

    D = - (diffusion flux) * (( - thickness) / (0.012 wt% C - 0.0074 wt% C)

    D = - (2.2 * 10^-8) * ((-2*10^-3) / (0.944 -.5823)

    D = 1.22 * 10 ^-10 m²/s

    The diffusion coefficient is 1.22 * 10 ^-10 m²/s
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Home » Chemistry » A sheet of BCC iron 2.0-mm thick was exposed to a carburizing atmosphere on one side and a decarburizing atmosphere on the other side at 725°C. After having reached steady state, the iron was quickly cooled to room temperature.
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