Phase separation of undercooled copper alloys

Details Phase separation of undercooled copper alloys Phase separation of undercooled copper alloys

Oct 2005

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005esasp1290...24e&link_type=abstract

In: Microgravity applications programme: Successful teaming of science and industry. Edited by Andrew Wilson, coordination: Benn

Statistics

Applications

Physical Sciences, Metallic Alloys

Scientific paper

Immiscible alloys have been investigated since the beginning of materials science research under microgravity conditions because of the fascinating prospect of producing finely-dispersed materials for various applications. Containerless processing offers new possibilities for investigating the properties of such systems. Unsupported 2-phase liquid drops display a variety of physical phenomena, including wetting, phase separation and solidification. Of particular interest are the binary alloys Cu-Co and Cu-Fe, and the ternary system Cu-Fe-Co. All show a metastable miscibility gap in the undercooled melt. The MAP team consists of European experts in the relevant fields, supported by a Project User Group of industrial partners monitoring the application aspects of the project, such as electronics, catalysis and scrap recycling.

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