Complex concentrated coatings: Effect of processing route on microstructural and mechanical properties

•Direct mixing of powders (DM) is an effective and efficient route for CCA coatings.•CCA coating with DM precursor show better fracture toughness than alloyed precursor.•CCA coatings from DM and MA precursors show similar cavitation erosion behavior. We investigated the structure–property correlatio...

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Veröffentlicht in:	Materials letters 2018-11, Vol.230, p.100-104
Hauptverfasser:	Nair, Rakesh B., Arora, H.S., Mandal, Priya, Grewal, H.S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloy development Alloys Ball milling Cavitation erosion Cellular structure Coating effects Deposition Fracture toughness Indentation and hardness Intermetallic phases Materials science Mechanical alloying Mechanical properties Metallurgy Metals Metals and alloys Microhardness Microstructure Modulus of elasticity Precursors Protective coatings Substrates
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creator	Nair, Rakesh B. Arora, H.S. Mandal, Priya Grewal, H.S.
description	•Direct mixing of powders (DM) is an effective and efficient route for CCA coatings.•CCA coating with DM precursor show better fracture toughness than alloyed precursor.•CCA coatings from DM and MA precursors show similar cavitation erosion behavior. We investigated the structure–property correlation for the complex concentrated alloy (CCA) coatings prepared using different precursor powders. Al3CoCrFeNi CCA precursor powders were prepared through mechanical alloying (MA) (ball milling) and direct mixing (DM). CCA coatings were developed using microwave technique through hybrid heating approach. Coatings showed good metallurgical bonding with substrate exhibiting cellular growth structure. Microstructure for both coatings was primarily composed of A2 phase segregated with B2 phase at intercellular region. CCA coatings with different precursors showed insignificant influence on hardness, elastic modulus and cavitation erosion. Nonetheless, coating developed with MA precursor showed slightly lower fracture toughness compared to DM, mainly attributed to inherently higher fraction of intermetallic B2 phase. We showed that direct mixing is an efficient and effective route for developing CCA coatings.
doi_str_mv	10.1016/j.matlet.2018.07.088
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We investigated the structure–property correlation for the complex concentrated alloy (CCA) coatings prepared using different precursor powders. Al3CoCrFeNi CCA precursor powders were prepared through mechanical alloying (MA) (ball milling) and direct mixing (DM). CCA coatings were developed using microwave technique through hybrid heating approach. Coatings showed good metallurgical bonding with substrate exhibiting cellular growth structure. Microstructure for both coatings was primarily composed of A2 phase segregated with B2 phase at intercellular region. CCA coatings with different precursors showed insignificant influence on hardness, elastic modulus and cavitation erosion. Nonetheless, coating developed with MA precursor showed slightly lower fracture toughness compared to DM, mainly attributed to inherently higher fraction of intermetallic B2 phase. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Alloy development Alloys Ball milling Cavitation erosion Cellular structure Coating effects Deposition Fracture toughness Indentation and hardness Intermetallic phases Materials science Mechanical alloying Mechanical properties Metallurgy Metals Metals and alloys Microhardness Microstructure Modulus of elasticity Precursors Protective coatings Substrates
title	Complex concentrated coatings: Effect of processing route on microstructural and mechanical properties
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