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|Project-Link=[http://bmgathome.science/bmgathome/ BMG@Home] | |Project-Link=[http://bmgathome.science/bmgathome/ BMG@Home] | ||
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Research in computational materials science. | Research in computational materials science. | ||
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This project simulates the formation of Bulk Metallic Glass, a material stronger than most steels and as elastic as most polymers. Bulk metallic glasses have applications in everything from damage-resistant smartphones to bio-compatible glucose monitors for diabetics. However, there exist challenges in designing optimal bulk metallic glasses and understanding the ways that their bulk properties relate to their micro-scale formation. This project, performed in collaboration with Yale University's O'Hern group, aims to gain greater fundamental understanding of these materials. | |||
|Start=2016 | |Start=March 2016 | ||
|End= | |End=May 2016 | ||
|Status=beta | |Status=beta | ||
|Admin=Bradley Dice | |Admin=Bradley Dice | ||
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|SP=no | |SP=no | ||
|DP=no | |DP=no | ||
|RAM= | |RAM=1 MB | ||
|Runtime=30min-14h | |Runtime=30min-14h | ||
|Diskspace=1MB | |Diskspace=1MB | ||
|Traffic=kb / kb | |Traffic=kb / kb | ||
|Deadline= | |Deadline=7 days | ||
|Checkpoints=x | |Checkpoints=x | ||
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{{Languages}} | {{Languages|BMG@Home}} | ||
Aktuelle Version vom 10. Mai 2016, 20:11 Uhr
 Research in computational materials science.
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