Thermal oxidation-resistant surface alloys processed by laser alloying on 35 NCD 16 ferritic steel

The hardness and the high-temperature oxidation resistance of the low-alloyed ferritic steel 35 NCD 16 (Fe-0.38 C-18 Cr-4 Ni, wt.%) were increased by laser surface alloying of Cr sub 3 C sub 2 or Cr sub 3 C sub 2 and SiC. The obtained surface alloys always exhibit primary dendrites ( gamma Fe solid...

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Veröffentlicht in:	Journal of materials science 1996-12, Vol.31 (24), p.6627-6630
Hauptverfasser:	GEMELLI, E, GALERIE, A, CAILLET, M
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Corrosion Corrosion prevention Exact sciences and technology Metals. Metallurgy
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container_title	Journal of materials science
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creator	GEMELLI, E GALERIE, A CAILLET, M
description	The hardness and the high-temperature oxidation resistance of the low-alloyed ferritic steel 35 NCD 16 (Fe-0.38 C-18 Cr-4 Ni, wt.%) were increased by laser surface alloying of Cr sub 3 C sub 2 or Cr sub 3 C sub 2 and SiC. The obtained surface alloys always exhibit primary dendrites ( gamma Fe solid solution with Cr and Si+martensite) and an interdendritic eutectic containing gamma Fe+martensite+M sub 7 C sub 3 carbides (M=Fe,Cr). In the first case, the formation of iron chromite, FeCr sub 2 O sub 4 , in contact with the coating accounts for the good oxidation resistance. In the second case, the beneficial influence of silicon lies in the formation in the presence of oxygen of a thin chromia scale only, with local silicon enrichment, showing excellent barrier properties. Kinetic and structural observations are discussed in the light of thermodynamics and diffusion processes.
doi_str_mv	10.1007/BF00356271
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The obtained surface alloys always exhibit primary dendrites ( gamma Fe solid solution with Cr and Si+martensite) and an interdendritic eutectic containing gamma Fe+martensite+M sub 7 C sub 3 carbides (M=Fe,Cr). In the first case, the formation of iron chromite, FeCr sub 2 O sub 4 , in contact with the coating accounts for the good oxidation resistance. In the second case, the beneficial influence of silicon lies in the formation in the presence of oxygen of a thin chromia scale only, with local silicon enrichment, showing excellent barrier properties. 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The obtained surface alloys always exhibit primary dendrites ( gamma Fe solid solution with Cr and Si+martensite) and an interdendritic eutectic containing gamma Fe+martensite+M sub 7 C sub 3 carbides (M=Fe,Cr). In the first case, the formation of iron chromite, FeCr sub 2 O sub 4 , in contact with the coating accounts for the good oxidation resistance. In the second case, the beneficial influence of silicon lies in the formation in the presence of oxygen of a thin chromia scale only, with local silicon enrichment, showing excellent barrier properties. Kinetic and structural observations are discussed in the light of thermodynamics and diffusion processes.</description><subject>Applied sciences</subject><subject>Corrosion</subject><subject>Corrosion prevention</subject><subject>Exact sciences and technology</subject><subject>Metals. 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subjects	Applied sciences Corrosion Corrosion prevention Exact sciences and technology Metals. Metallurgy
title	Thermal oxidation-resistant surface alloys processed by laser alloying on 35 NCD 16 ferritic steel
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