Rapid solidification and metastable phase formation during surface modifications of composite Al-Cr cathodes exposed to cathodic arc plasma

Mehran Golizadeh ¹Francisca Mendez Martin ¹Stefan Wurster ²Johann P.Mogeritsch ³Abdellah Kharicha ³Szilard Kolozsvári ⁴Christian Mitterer ¹Robert Franz¹

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作者信息

1. Department of Materials Science,Montanuniversit(a)t Leoben,Franz Josef-Straβe 18,8700 Leoben,Austria
2. Erich Schmid Institute of Materials Science,Austrian Academy of Sciences,Jahnstraβe 12,8700 Leoben,Austria
3. Department of Metallurgy,Montanuniversit(a)t Leoben,Frarz Josef-Strafβe 18,8700 Leoben,Austria
4. Plansee Composite Materials GmbH,Siebenbürgerstraβe 23,86983 Lechbruck am See,Germany
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Abstract

A combination of both conventional and advanced high-resolution characterization techniques was ap-plied to study the modified layers on the surface of three composite Al-Cr arc cathodes with identical nominal composition of Al-50 at.％ Cr but varying powder grain sizes.The results revealed that the mod-ified layers consist mainly of metastable phases such as Cr solid solution,high temperature cubic Al8Cr5,supersaturated Al solid solution,and icosahedral quasicrystal.The metastable phase formation indicates that high cooling rates were involved during the solidification of molten material produced in the arc craters during cathode spot events.The average cooling rate was estimated to be 106 K/s based on sec-ondary dendrite arm spacing measurements and supporting phase-field based simulations.The formation mechanisms of the modified layers are discussed based on the obtained results and the current literature.

Key words

Cathodic arc/Rapid solidification/Quasicrystal/Arc crater/Macroparticle/Phase-field simulation

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基金项目

the(O)sterreichische Forschungs-f(O)rderungsgesellschaft mbH (FFG) within the framework of the project(856889)

出版年

2021

材料科学技术(英文版)

中国金属学会中国材料研究学会中国科学院金属研究所

材料科学技术(英文版)

CSTPCDCSCDSCI

影响因子：0.657

ISSN：1005-0302

参考文献量98

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