Composition of C–Si–Mn–Cr–W–V powder wire and quality of surfacing

The influence of the composition of powder wire on the properties of the applied layer on steel samples is studied in the laboratory. If amorphous graphite in 35V9Kh3SF powder wire is replaced by material containing carbon and fluorine, the porosity of the applied layer is reduced, and fewer nonmeta...

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Veröffentlicht in:	Steel in translation 2016-11, Vol.46 (11), p.781-787
Hauptverfasser:	Kozyrev, N. A., Kibko, N. V., Umanskii, A. A., Titov, D. A., Bashchenko, L. P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Carbon equivalent Chemistry and Materials Science Hardness Materials Science Nonmetallic inclusions Statistical analysis Statistical methods Steels Wire
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creator	Kozyrev, N. A. Kibko, N. V. Umanskii, A. A. Titov, D. A. Bashchenko, L. P.
description	The influence of the composition of powder wire on the properties of the applied layer on steel samples is studied in the laboratory. If amorphous graphite in 35V9Kh3SF powder wire is replaced by material containing carbon and fluorine, the porosity of the applied layer is reduced, and fewer nonmetallic inclusions (including row oxide inclusions and undeformable silicates) are present. Statistical analysis of the experimental data illustrates the influence of the carbon equivalent of the 35V9Kh3SF powder wire on the hardness of the applied layer (including the mean surface hardness and the microhardness of martensite). With increase in the carbon equivalent calculated by the Paton Institute’s formula, the hardness of the applied layer linearly increases.
doi_str_mv	10.3103/S0967091216110073
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subjects	Carbon Carbon equivalent Chemistry and Materials Science Hardness Materials Science Nonmetallic inclusions Statistical analysis Statistical methods Steels Wire
title	Composition of C–Si–Mn–Cr–W–V powder wire and quality of surfacing
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