Statistics – Applications
Scientific paper
Oct 2005
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005esasp1290...38h&link_type=abstract
In: Microgravity applications programme: Successful teaming of science and industry. Edited by Andrew Wilson, coordination: Benn
Statistics
Applications
Physical Sciences, Industrial Alloys
Scientific paper
Solidification of alloys is a complex phenomenon arising in many modern experimental techniques and industrial technologies involving casting and surface processing. Deep undercooling of alloys below equilibrium liquidus temperature results in rapid solidification, yielding materials with improved mechanical, magnetic and electrical properties. This MAP project is focusing on the long-term perspective for industrial materials such as Ni- and Al-based alloys. Ni-based multicomponent superalloys are the basis material for the production of, for example, turbine blades; Al-based alloys are highly important for the aerospace and automotive industries. More than 90% of all metallic materials are now produced from the liquid state. So far, efforts have been directed towards optimising the industrial production routes in the casting and foundry industry by computer-assisted modelling and simulation of solidification under different conditions. The goal has been to reduce the time- and energy-consuming treatment of the cast material in order to produce a material with the desired properties.
Gandin Charles-André
Garcia-Escorial Asuncion
Grellier André
Grün Gerd-Ulrich
Guédou Jean-Yves
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