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Robert Ritchie   (Source: Roy Kaltschmidt, Berkeley Lab Public Affairs)
This damage-tolerant metallic glass is made of microalloys of palladium with phosphorous, germanium, silicon and silver

Researchers at the California Institute of Technology and the U.S. Department of Energy's (DOE) Lawrence Berkeley National Laboratory have combined efforts to create a glass that is said to be the strongest out of any known material. 

Robert Ritchie, study leader and a material scientist from the Lawrence Berkeley National Laboratory, along with co-authors Marios Demetriou, Glenn Garrett, Joseph Schramm, Maximilien Launey, Douglas Hofmann, and William Johnson of the California Institute of Technology, have developed a glass that is tougher and stronger than steel.

Glassy materials have a non-crystalline, amorphous structure, which makes them strong yet brittle. This type of structure allows cracks and strains to spread throughout the material because the glass' amorphous structure cannot stop crack propagation. To remedy this, the Lawrence Berkeley/California Tech team designed what they called "DH3," which was a fabricated metallic glass capable of preventing cracks from spreading through the use of a second crystalline phase of the metal. While this method prevented the spread of cracks, these researchers wanted to take this research to the next level and make it stronger. 

The Lawrence Berkeley/California Tech team came together once again to develop this new glass, which is a damage-tolerant metallic glass made of microalloys of palladium, which has a high bulk-to-shear stiffness ratio. The difference between this new glass and DH3 is that their new creation also promotes extensive plasticity "through the formation of multiple shear bands before the bands turn into cracks." 

"These results mark the first use of a new strategy for metallic glass fabrication and we believe we can use it to make glass that will be even stronger and more tough," said Ritchie. "Because of the high bulk-to-shear modulus ratio of palladium-containing material, the energy needed to form shear bands is much lower than the energy required to turn these shear bands into cracks. The result is that glass undergoes extensive plasticity in response to stress, allowing it to bend rather than crack."

Ritchie added that it is important to make a metallic glass with at least five elements in order to quench the material, which means to cool the material. The first samples of the metallic glass consisted of microalloys of palladium with phosphorous, germanium, silicon and silver. This increases the thickness of the glass rods, but the size is limited to its need to rapidly quench the liquid metals for its final structure. When it comes time to quench the liquid metals, it doesn't know which crystal structure to form, so it automatically forms an amorphous structure. 

"Our game now is to try and extend this approach of inducing extensive plasticity prior to fracture to other metallic glasses through changes in composition," said Ritchie. "The addition of the palladium provides our amorphous material with an unusual capacity for extensive plastic shielding ahead of an open crack. This promotes a fracture toughness comparable to those of the toughest materials known. The rare combination of toughness and strength, or damage tolerance, extends beyond the benchmark ranges established by the toughest and strongest materials known." 

This study was published in Nature Materials.

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By chrnochime on 1/11/2011 2:48:04 PM , Rating: 3
Unless those metals used (Germanium/Palladium) are cheap and plentiful...and I don't think Palladium is, this doesn't seem like an economical alternative to current glass used in buildings/cars.

RE: Cost?
By mead drinker on 1/11/2011 4:01:45 PM , Rating: 2
Palladium is about as expensive as 14K gold.

RE: Cost?
By bupkus on 1/11/2011 4:52:02 PM , Rating: 2
First: research
Next: proof of concept (application)
Last: manufacture for profit (refinement including alternate/cheaper materials)

RE: Cost?
By sorry dog on 1/12/2011 9:33:44 AM , Rating: 4
...Please act now to preserve your order of the American Buffalo Paladium Dollar. The US mint only produced 10,000 of this rare coin, so call today to reserve yours. Call Monex today to get this limited time offer to buy a $50 coin for $1000.

RE: Cost?
By melgross on 1/11/2011 5:08:45 PM , Rating: 2
I was looking to see if someone noticed that.

By the way, Liquid metal is the same as this. This is just another variation of that, and we know Apple has licensed that for all consumer product use, and have two patents on it themselves already.

So, I'm wondering just what makes this stuff so different. It seems to be just another alloy of the same thing.

"There's no chance that the iPhone is going to get any significant market share. No chance." -- Microsoft CEO Steve Ballmer

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