Determination Features of the Component Diffusion Coefficients of the Fe-Cr-Ni-Gr Powder Systems Sintering

To predict structuring and to produce Fe-Cr-Ni-Graphite-based powdered alloys with tailor-made properties, the component diffusion coefficients have been determined that allow calculating sintering or homogenizing annealing parameters of heterogeneous charge products. It has been revealed that Fe, C...

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Veröffentlicht in:	Materials Science Forum 2016-09, Vol.870, p.286-292
Hauptverfasser:	Sirotin, P.V., Gasanov, B.G., Perederiy, V.G.
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Sprache:	eng
Schlagworte:	Alloys Charge Contact Diffusion coefficient Displacement Graphite Mathematical analysis Sintering (powder metallurgy)
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description	To predict structuring and to produce Fe-Cr-Ni-Graphite-based powdered alloys with tailor-made properties, the component diffusion coefficients have been determined that allow calculating sintering or homogenizing annealing parameters of heterogeneous charge products. It has been revealed that Fe, Cr and Ni heterodiffusion coefficients are influenced not only by their own concentration, but also by structuring kinetics and the number and distribution of the graphite in charge. The electron-probe test shows the distribution of the components in the in-terparticle contact zones. Using the Motano’s, the Lubov’s and the Maksimov’s methods, the values of mutual diffusion coefficients depending on the component concentration have been determined. Using Darken’s ratios and having experimentally determined the component interparticle zones and the displacement distance, the partial heterodiffusion coefficients have been calculated. The given paper proves that the powder-component grain-size distribution alloys should be selected on the basis of relative values of the heterodiffusion coefficients.
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subjects	Alloys Charge Contact Diffusion coefficient Displacement Graphite Mathematical analysis Sintering (powder metallurgy)
title	Determination Features of the Component Diffusion Coefficients of the Fe-Cr-Ni-Gr Powder Systems Sintering
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