Diamonds are forever, except when they oxidize while cutting through iron, cobalt, nickel, chromium or vanadium at high temperatures. Conversely, cubic boron nitride possesses superior chemical inertness but only about half of the hardness of diamonds. In an attempt to create a superhard material better suited for a wide variety of materials on an industrial scale, researchers at Sichuan Univ. in Chengdu, China, have created an alloy composed of diamonds and cubic boron nitride (cBN) that boasts the benefits of both.

“Diamond and cubic boron nitride could readily form alloys that can potentially fill the performance gap because of their affinity in structure lattices and covalent bonding character,” said Duanwei He, a professor at Sichauan Univ.’s Institute of Atomic and Molecular Physics. “However, the idea has never been demonstrated because samples obtained in previous studies are too small to test their practical performance.”

He and his colleagues at the University of Nevada and the Chinese Academy of Sciences detail their procedure in Applied Physics Letters.

To synthesize diamond-cBN alloys, the researchers subjected a homogenous mixture of diamond and cubic boron nitride powder to a vacuum furnace at 1,300 K for two hours, then pressed the material into 3.5-mm pellets under pressure greater than 15 gigapascals and temperatures above 2,000 K. The pellets were then polished and sharpened into cutting implements.

The researchers tested the cutting performances of their alloy on hardened steel and granite bars on a computer numerical controlled lathe. They found that the diamond-cBN alloy rivaled polycrystalline cubic boron nitride’s wear and tool life on the steel samples, and exhibited significantly less wear when cutting through granite. The alloy also demonstrated a more preferable high-speed cutting performance than either polycrystalline CBN or commercial polycrystalline diamonds.

Future work for He and his colleagues involves developing synthesis technology for centimeter-sized diamond-cBN alloy bulks to bring the process up to industrial-scale production.

Source: Institute of Physics

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