[Home] [Headlines] [Latest Articles] [Latest Comments] [Post] [Sign-in] [Mail] [Setup] [Help]
Status: Not Logged In; Sign In
Science/Tech See other Science/Tech Articles Title: Extra hard aluminum finally produced An international team of researchers including scientists from The Australian National University have created a new, super-dense version of aluminium that could lead to efficient production of new super-hard nanomaterials at a relatively low cost. In a paper published today in Nature Communications, the group has described how they discovered a way to produce body-centred-cubic aluminium, which is 40 per cent more dense. Super-hard aluminium was predicted to exist more than 30 years ago but has never before been observed. Professor Andrei Rode from the Laser Physics Centre at ANU said the state of any material depends on temperature and pressure. For example, water turns into ice at low temperatures and hydrogen gas actually becomes metallic under extreme pressure in the middle of a star, he said. Lab experiments on producing high pressure and temperature generally use a diamond anvil with a point on one end to produce high pressure but this is limited by the strength of the diamond, which in the case of aluminium, is not hard enough to crush into a new state. We demonstrated that it is possible to create extreme pressure and temperature conditions in table-top laboratory experiments using an extremely short laser pulse to create a huge concentration of energy in a very short time and in a very small sub-micron volume inside a sapphire crystal, which is aluminium oxide. This experiment resulted in something like a micro-explosion which turned the aluminium to a plasma state that swelled but had nowhere else to go, creating gigantic pressure and dramatic changes in surrounding material properties and producing unfamiliar x-ray spectral lines. We did a lot of work using theoretical modelling to identify the spectral lines, which were in very unusual positions with various aluminium oxide crystal configurations, but could not find a satisfactory match between theory and experiment. We were about to abolish the search, when we had the crazy idea to compare any possible aluminium crystal phases to the observed spectra. The idea was considered crazy because it contradicted a conventional wisdom that aluminium surrounded by oxygen must be oxidised in normal condition. But to paraphrase Niels Bohr, a Nobel Prize laureate in physics, the discovery of a new aluminium phase proved that
the idea was crazy enough to be true. This discovery shows a new way to form warm dense matter in relatively inexpensive table-top laboratory experiments and could also improve our understanding of the deep Earth core and planetary sciences.
Post Comment Private Reply Ignore Thread Top Page Up Full Thread Page Down Bottom/Latest
#1. To: Tatarewicz (#0)
But, James Montgomery Scott already showed us how to make super strong, super dense, transparent aluminum. Way to go Scotty.
improve our understanding of the deep Earth core and planetary sciences. Our understanding of our universe is basic at best. Our understanding of our origins is below primitive.
"You'll just sing about Jesus and drink wine all day. It's great to be an American" - Sail Away by Randy Newman
|
||
[Home]
[Headlines]
[Latest Articles]
[Latest Comments]
[Post]
[Sign-in]
[Mail]
[Setup]
[Help]
|