Solid–liquid structural break-up in M2 tool steel for semi-solid metal processing

Solid–liquid structural break-up in M2 tool steel for semi-solid metal processing

The success of semi-solid metal processing mostly depends on the formation of suitable starting microstructure, which must consist of solid metal spheroids in a liquid matrix. Various methods of obtaining this structure have been established; they include recrystallisation and partial melting (RAP),...

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Veröffentlicht in:Journal of materials science 2009-02, Vol.44 (3), p.869-874
Hauptverfasser: Omar, M. Z., Atkinson, H. V., Howe, A. A., Palmiere, E. J., Kapranos, P., Ghazali, M. J.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum
Breakup
Carbides
Characterization and Evaluation of Materials
Classical Mechanics
Crystallography and Scattering Methods
Grain boundaries
High speed tool steels
Light metal alloys
Materials Science
Microstructure
Polymer Sciences
Recrystallization
Semi-solid processing
Slurries
Solid Mechanics
Spheroids
Strain
Thixoforming
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container_end_page 874
container_issue 3
container_start_page 869
container_title Journal of materials science
container_volume 44
creator Omar, M. Z.
Atkinson, H. V.
Howe, A. A.
Palmiere, E. J.
Kapranos, P.
Ghazali, M. J.
description The success of semi-solid metal processing mostly depends on the formation of suitable starting microstructure, which must consist of solid metal spheroids in a liquid matrix. Various methods of obtaining this structure have been established; they include recrystallisation and partial melting (RAP), strain-induced melt-activated (SIMA), or simple mechanical stirring, to name a few. These methods, as widely discussed, have mostly been applied with light alloys, mainly aluminium based. This article discusses solid–liquid structural break-up in M2 tool steel subjected to a direct re-melting procedure from the as-annealed condition. The role of carbide dissolution in the grain boundary liquation of the steel is described. This leads to the production of near spheroidal solid grains in a liquid matrix, a microstructure suitable for the thixoforming process. Microstructural examination revealed that carbide particles contained in bands at 1220 °C slowly disappeared with temperature. At 1300 °C, the solid grains seemed to be free from carbides. Most of the carbides had now re-precipitated at the grain boundaries. Thixoforming carried out at 1340 and 1360 °C revealed the thixotropic properties of the semi-solid metal slurries. The results indicate a widening of the range of potential routes to thixoformable microstructures.
doi_str_mv 10.1007/s10853-008-3181-1
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subjects Aluminum
Breakup
Carbides
Characterization and Evaluation of Materials
Classical Mechanics
Crystallography and Scattering Methods
Grain boundaries
High speed tool steels
Light metal alloys
Materials Science
Microstructure
Polymer Sciences
Recrystallization
Semi-solid processing
Slurries
Solid Mechanics
Spheroids
Strain
Thixoforming
title Solid–liquid structural break-up in M2 tool steel for semi-solid metal processing
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