Phase and structure changes during the sintering of compacts of high-speed steels obtained from powders with various rates of solidification

An investigation was made of the phase and structure transformations in compacts of high-speed steel R6M5F3 powder fractions −630+50 μm at the temperatures of solid-phase (1160–1220°C) and liquid-phase (1240°C) sintering. The structure of the compacts was crystalline or quasicrystalline, depending o...

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Veröffentlicht in:	Powder metallurgy and metal ceramics 1999-11, Vol.38 (11-12), p.572-578
Hauptverfasser:	Ul’shin, V. I., Poznyak, L. A., Ul’shin, S. V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cellular structure Chemical potential Compacts Cooling rate High speed tool steels Liquid phases Phase transformations Powder spraying Recrystallization Sintering Sintering (powder metallurgy) Solid phases Solid solutions Solidification Solids Superheating
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creator	Ul’shin, V. I. Poznyak, L. A. Ul’shin, S. V.
description	An investigation was made of the phase and structure transformations in compacts of high-speed steel R6M5F3 powder fractions −630+50 μm at the temperatures of solid-phase (1160–1220°C) and liquid-phase (1240°C) sintering. The structure of the compacts was crystalline or quasicrystalline, depending on the degree of superheating and cooling rate of the melt during powder spraying. This was related to the presence of a cellular structure in particles of a critical size in the powder. Compacts of powder with the cellular structure experienced higher shrinkage during solid-phase sintering as a result of structre relaxation and recrystallization. The driving force of these processes is the change in chemical potential arising from the decomposition of highly supersaturated metastable solid solutions, and the excess grain-boundary energy of the quasicrystalline matrix structure.
doi_str_mv	10.1007/BF02676189
format	Article
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subjects	Cellular structure Chemical potential Compacts Cooling rate High speed tool steels Liquid phases Phase transformations Powder spraying Recrystallization Sintering Sintering (powder metallurgy) Solid phases Solid solutions Solidification Solids Superheating
title	Phase and structure changes during the sintering of compacts of high-speed steels obtained from powders with various rates of solidification
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