Metallic Glass: Difference between revisions
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==How it's made== | ==How it's made== | ||
The first metallic glass was produced in 1960 by W. Klement (Jr.), Willens and Duwez at Caltech. It was a 75-25 gold-silicon alloy that was solidified by cooling it from the liquid state at an extremely high rate | The first metallic glass was produced in 1960 by W. Klement (Jr.), Willens and Duwez at Caltech. It was a 75-25 gold-silicon alloy that was solidified by cooling it from the liquid state at an extremely high rate of roughly one million Kelvin per second. This rapid cooling process forced the material into an amorphous state by not allowing the metal atoms enough time to order themselves into a crystal lattice. An unfortunate limitation of this process was that metallic glasses could only be formed as extremely thin samples, as heat needed to be removed quickly in order to frustrate crystallization of the material. This rapid cooling technique remained the only viable method for producing metallic glasses for nearly three decades, and with the limitations of the method, few applications could be realized. | ||
===Rapid cooling=== | ===Rapid cooling=== | ||
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== | ==Uses== | ||
===Today=== | |||
====Amorphous metal transformers==== | |||
=== | ===The future=== | ||
====Blades, golf clubs, etc.=== | ====Blades, golf clubs, etc.=== | ||
Revision as of 14:48, 23 April 2009
A metallic glass, also known as an amorphous metal or glassy metal, is a metallic material that lacks a crystalline structure. Bulk metals typically have a highly-ordered crystalline structure, whereas a metallic glass is amorphous in nature, much like a glass. Various methods are used to fix the metal's structure in an amorphous state, and the result is a material which possesses a number of novel properties with promising future applications.
How it's made
The first metallic glass was produced in 1960 by W. Klement (Jr.), Willens and Duwez at Caltech. It was a 75-25 gold-silicon alloy that was solidified by cooling it from the liquid state at an extremely high rate of roughly one million Kelvin per second. This rapid cooling process forced the material into an amorphous state by not allowing the metal atoms enough time to order themselves into a crystal lattice. An unfortunate limitation of this process was that metallic glasses could only be formed as extremely thin samples, as heat needed to be removed quickly in order to frustrate crystallization of the material. This rapid cooling technique remained the only viable method for producing metallic glasses for nearly three decades, and with the limitations of the method, few applications could be realized.
Rapid cooling
Crystal frustration
Structure
Properties
Strength
Elasticity
(etc)
Shear and fatigue
http://www.sciencedaily.com/releases/2009/03/090324091211.htm http://blogs.physicstoday.org/update/2009/03/confining-cracks-in-metallic-g.html http://www.msnbc.msn.com/id/29738048/