Rapid microwave heating at 2450 MHz of metallic powders mixtures compacts was performed under Ar flux in a single mode applicator in order to produce Si-modified Mn25FexNi25Cu(50−x), (x=25, 30, 35, 40) high entropy alloys. Microwave heating was conducted in presence of a SiC auxiliary absorber, so that the compacts are subjected to both direct heating by microwave absorption and indirect heating by the auxiliary absorber. Due to the extremely rapid processing times, including the cooling stage, depletion of the most oxygen-reactive elements was moderate, considering the not perfectly protective atmosphere used. FCC solid solutions have been obtained and the role of Si is discussed as a microstructure modifier and as increaser of the microhardness.
Microwave assisted synthesis of Si-modified Mn25FexNi25Cu(50−x) high entropy alloys / Veronesi, Paolo; Colombini, Elena; Rosa, Roberto; Leonelli, Cristina; Rosi, Fabrizio. - In: MATERIALS LETTERS. - ISSN 0167-577X. - 162:(2016), pp. 277-280. [10.1016/j.matlet.2015.10.035]
Microwave assisted synthesis of Si-modified Mn25FexNi25Cu(50−x) high entropy alloys
VERONESI, Paolo;COLOMBINI, Elena;ROSA, Roberto;LEONELLI, Cristina;
2016
Abstract
Rapid microwave heating at 2450 MHz of metallic powders mixtures compacts was performed under Ar flux in a single mode applicator in order to produce Si-modified Mn25FexNi25Cu(50−x), (x=25, 30, 35, 40) high entropy alloys. Microwave heating was conducted in presence of a SiC auxiliary absorber, so that the compacts are subjected to both direct heating by microwave absorption and indirect heating by the auxiliary absorber. Due to the extremely rapid processing times, including the cooling stage, depletion of the most oxygen-reactive elements was moderate, considering the not perfectly protective atmosphere used. FCC solid solutions have been obtained and the role of Si is discussed as a microstructure modifier and as increaser of the microhardness.
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