Difference between revisions of "Cargo:Transparent Aluminum"
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The most important advance in the past century of computer useability has been the invention of transparent aluminum. This durable and dynamic material allows computers to essentially display information any way that they choose. From three dimensional holotanks to pinpoint eye-screens to the standard two dimensional HUD overlays on starships, Transparent Aluminum is one of the most common computer manufacturing materials. | The most important advance in the past century of computer useability has been the invention of transparent aluminum. This durable and dynamic material allows computers to essentially display information any way that they choose. From three dimensional holotanks to pinpoint eye-screens to the standard two dimensional HUD overlays on starships, Transparent Aluminum is one of the most common computer manufacturing materials. | ||
− | [http://physicsweb.org/articles/news/8/8/9/1 Alumina glass], a transparent material constituted mainly of Al<sub>2</sub>O<sub>3</sub>, should not be mistaken for Transparent | + | [http://physicsweb.org/articles/news/8/8/9/1 Alumina glass], a transparent material constituted mainly of Al<sub>2</sub>O<sub>3</sub>, should not be mistaken for ''Transparent aluminum''. While sufficiently transparent and resistant, Alumina glass lacks the conductive properties needed for electronic data transmision and electrosensitive input. |
− | Currently, the name refers to a specially treated aluminum polymer (albeit chemically incorrectly, strictly speaking.) Anodized aluminum is combined with carbocation monomers which are then polymerized with catalysts at high temperatures, then supercooled | + | Currently, the name refers to a specially treated aluminum polymer (albeit chemically incorrectly, strictly speaking.) Anodized aluminum is combined with metallic carbocation monomers which are then polymerized with catalysts at high temperatures, then supercooled solid. As with Alumina glass, the transparency is due to the ''quenching'' process (quick cooling of a hot substrance.) As opposed to liquids, molecules in solids align themselves in regular patterns that increase the probability of photon absorption or deflection, unless the heat loss is so fat that it doesn't give them time. |
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Revision as of 05:29, 2 June 2005
Alloys |
Description
The most important advance in the past century of computer useability has been the invention of transparent aluminum. This durable and dynamic material allows computers to essentially display information any way that they choose. From three dimensional holotanks to pinpoint eye-screens to the standard two dimensional HUD overlays on starships, Transparent Aluminum is one of the most common computer manufacturing materials. Alumina glass, a transparent material constituted mainly of Al2O3, should not be mistaken for Transparent aluminum. While sufficiently transparent and resistant, Alumina glass lacks the conductive properties needed for electronic data transmision and electrosensitive input. Currently, the name refers to a specially treated aluminum polymer (albeit chemically incorrectly, strictly speaking.) Anodized aluminum is combined with metallic carbocation monomers which are then polymerized with catalysts at high temperatures, then supercooled solid. As with Alumina glass, the transparency is due to the quenching process (quick cooling of a hot substrance.) As opposed to liquids, molecules in solids align themselves in regular patterns that increase the probability of photon absorption or deflection, unless the heat loss is so fat that it doesn't give them time. |
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