Hard stuff: cooked diamonds don't dent.Popping diamonds into a high-pressure oven for a few minutes can render the famously hard minerals even harder, researchers have found. In particular, pressure-cooking a recently developed type of synthetic diamond Synthetic diamond, also called lab-created, manufactured, "lab-grown" or cultured diamond is a term used to describe diamond (the tetrahedral carbon allotrope) which has been produced by a technological process, as opposed to natural diamond, which is has yielded the hardest single-crystal diamond material ever tested, claims Russell J. Hemley of the Carnegie Institution of Washington  The introduction to this article may be too long. Please help improve the introduction by moving some material from it into the body of the article according to the suggestions at (D.C.). Single-crystal diamond has a consistent geometric order of atoms throughout, making it desirable for uses ranging from jewelry to electronics. The new material is so hard that tools used to gauge hardness left no mark on several of the crystals, Hemley and other researchers say. In fact, the researchers broke equipment worth about $10,000 in their attempts at measurement. Because the treated diamonds are also highly tough, or fracture-resistant, they may prove superior for many uses, Hemley and other researchers say. They suggest the material may serve as anvils for high-pressure research, coatings for cutting tools and biomedical bi·o·med·i·cal adj. 1. Of or relating to biomedicine. 2. Of, relating to, or involving biological, medical, and physical sciences. implants, and wafers for electronics that must operate under extreme conditions. Hemley and his colleagues at the Carnegie Institution, Los Alamos Los Alamos (lôs ăl`əmōs', lŏs), uninc. town (1990 pop. 11,455), seat of Los Alamos co., N central N.Mex. It is on a long mesa extending from the Jemez Mts. The U.S. (N.M.) National Laboratory, and Phoenix Crystal Corp. in Ann Arbor Ann Arbor, city (1990 pop. 109,592), seat of Washtenaw co., S Mich., on the Huron River; inc. 1851. It is a research and educational center, with a large number of government and industrial research and development firms, many in high-technology fields such as , Mich., present their findings in the March Physica Status Solidi sol·i·di n. Plural of solidus. (a). Some materials researchers are skeptical about the hardness measurements that Hemley's team reports. Michael Popov of the Max-Planck Institute for Chemistry in Mainz, Germany, and the Russian Academy of Sciences Russian Academy of Sciences (Russian: Росси́йская Акаде́мия Нау́к, in Moscow says that the team should have used a different, also standard, technique that some other recent hardness investigations have employed. In the new data's defense, Hemley notes that he and his colleagues used their measurement method on a variety of types of natural and synthetic diamonds of known hardness and obtained the expected values. To create the diamonds that were so hard as to be unmeasurable, the group started with a technique that Hemley and another team, including some of the same Carnegie scientists, had previously developed (SN: 9/14/02, p. 165). In a process known as chemical-vapor deposition (CVD CVD Cardiovascular disease, see there ), the researchers rapidly deposited carbon atoms onto an ordinary diamond. They then cut the new diamond free from the substrate. However, extraordinary hardness required another step: heating to 2,000[degrees]C under pressure like that found 150 kilometers or so beneath Earth's surface. The new study indicates that natural diamonds of one of the two types tested also show big jumps in hardness when subjected to the heat-and-squeeze treatment. The treatment is a type of annealing annealing (ənēl`ĭng), process in which glass, metals, and other materials are treated to render them less brittle and more workable. , a widely used process for modifying metals, metal alloys, and other materials. For diamonds, annealing had previously been used only to change the mineral's color. Tetsuo Irifune of Ehime University in Matsuyama, Japan, calls the work a "significant advance in synthesizing hard, single-crystal diamond:' He says he shares Popov's doubts about the accuracy of the new hardness measurements. Nevertheless, "it seems clear that the new CVD diamond is harder than normal natural and conventional synthetic diamonds," Irifune says. "The [hardening] mechanism is not well understood and should be further explored," he adds. Hemley says that his team has studies under way with that goal in mind. |
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