Mikrostruktur und Eigenschaften lichtbogengespritzter Schichten auf Eisenbasis |
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Authors: | K. Bobzin T. Schläfer K. Richardt L. Zhao P. Kutschmann |
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Affiliation: | RWTH Aachen, Institut für Oberfl?chentechnik, Jülicher Str. 344a, D‐52070 Aachen |
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Abstract: | Microstructure and properties of Fe‐based wire arc sprayed coatings Innovative iron based feedstocks for wire arc spraying are a promising alternative for conventional carbide reinforced feedstocks for wear applications. Recently the main area of research is focused on improving the properties of deposited functional coatings by varying the wire composition. The influence on the crystalline structure and the dimension of the hard phases in the resulting microstructure is of particular interest in this context. The objective of the investigation is to produce coatings with an amorphous phase, submicron and nanocrystalline structure. The forming of the amorphous phase is influenced by high cooling rates of the molten and partly molten particles impinging on the substrate. Thus, the achieved coatings are characterized by high hardness as well as high corrosion and wear resistance. The present paper introduces iron based coatings produced by wire arc spraying. Due to the application of cored wires with a modified alloy composition the forming of an amorphous phase as well as a submicron‐ and nanocrystalline structure is promoted. The filling of the cored wires are based on FeB with a eutectic composition and is varied by adding Cr3C2, FeSi, FeCrC and AlMg. The adding of further elements like Cr, C, Si, Al and Mg should improve the forming of the amorphous phase. The deposited coatings are analyzed regarding to the resulting coating properties and phase composition in connection with the composition of the cored wires. XRD‐analysis’ proved that the Fe‐based coatings contain an amorphous phase. |
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Keywords: | Eisenbasisschicht Amorphphase Lichtbogenspritzen Mikrostruktur Schichteigenschaften Iron based coatings amorphous phase wire arc spraying microstructure coating properties |
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