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A sheet of BCC iron 1-3 mm thick was exposed to a carburizing atmosphe.docx

mrichard5
3 de Feb de 2023
A sheet of BCC iron 1-3 mm thick was exposed to a carburizing atmosphe.docx
A sheet of BCC iron 1-3 mm thick was exposed to a carburizing atmosphe.docx
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Investigation The Mechanical Properties of Carburized Low Carbon SteelInvestigation The Mechanical Properties of Carburized Low Carbon Steel
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A sheet of BCC iron 1-3 mm thick was exposed to a carburizing atmosphe.docx

  1. A sheet of BCC iron 1.3 mm thick was exposed to a carburizing atmosphere on one side and a decarburizing atmosphere on the other side at 725 A sheet of BCC iron 1.3 mm thick was exposed to a carburizing atmosphere on one side and a decarburizing atmosphere on the other side at 725 degree 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 0.013 and 0.0067 wt%. Calculate the diffusion coefficient if the diffusion flux is 3.9 times 10 - 8 kg/m2·s, given that the densities of carbon and iron are 2.25 and 7.87 g/cm3, respectively? Solution Let us first convert the carbon concentrations from weight percent to kilograms carbon per meter cubed using Equation For 0.013 wt% C = 0.013 * 10^3 / (0.013/2.25 + (100-0.013)/7.87) = 1.0227 kg C/m^3 similarly for 0.0067 wt% = 0.0067*10^3 / (0.0067/2.25 + (100-0.0067)/7.87) = 0.5272 kg C/m^3 D = -3.9*10^-8 *(-10^-3 / (1.0227-0.5272)) = 7.87 * 10^-11 m^2 / s
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