DIAMOND CUBIC BORON NITRIDE

Brand Owner (click to sort) Address Description
ADVANCED SUPERABRASIVES Advanced Superabrasives, Inc. 1270 N. Main St. Mars Hill NC 28754 Diamond and cubic boron nitride grinding wheels in resin bond, metal bond, vitrified bond and plated formats for use with cutting, grinding and polishing machines; power-operated diamond dressers, hones, and abrasive sticks; power saw blades; thread and gear grinding wheels;ADVANCED SUPER ABRASIVES;SUPERABRASIVES;
CENTURION PARSONS DIAMOND PRODUCTS, INCORPORATED 22 GRASSMERE AVE. WEST HARTFORD CT 06110 Diamond and Cubic Boron Nitride Bonded Abrasive Wheels;
FLIPDISK ABRASIVE TECHNOLOGY, INC. 8400 Green Meadows Drive Lewis Center OH 43035 Diamond and Cubic Boron Nitride (CBN) super abrasive tips and bits for power-operated Chemical Mechanical Planarization (CMP) pad conditioning tools;FLIP DISK;
PARADIGM SAINT-GOBAIN ABRASIVES, INC. One New Bond Street Worcester MA 016150008 Diamond and cubic boron nitride grinding wheels, stones, and files used on power-driven machinery;
PISCES General Industrial Diamond Co., Inc. 140 Algonquin Pkwy. Whippany NJ 07981 DIAMOND AND CUBIC BORON NITRIDE DRESSING TOOLS AND ABRASIVE WHEELS FOR POWER OPERATED MACHINES;
PRECISELY ABRASIVE TECHNOLOGY, INC. 8400 Green Meadows Drive Lewis Center OH 43035 Diamond and Cubic Boron Nitride (CBN) super abrasive hand tools in the nature of hand files, abrasive hand pads and abrasive sticks for sharpening blades;Diamond and Cubic Boron Nitride (CBN) superabrasive cutting bits and grinding wheels for power-operated tools;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Methods of synthesizing superabrasive particles such as diamonds and cubic boron nitride are disclosed and described. One procedure includes providing a superabrasive precursor including a source material in a metal matrix. The carbon source can contain a majority of carbon atoms oriented in a rhombohedral polytype configuration. A shock wave can be passed through the carbon source that is sufficient to convert the diamond to graphite. The superabrasive precursor can be formed by dissolving hexagonal carbon in a suitable molten metal or by mixing particulate components. Similarly, hexagonal boron nitride can be used in a metal matrix which is subjected to a shock wave having sufficient energy to form cubic boron nitride. The superabrasive particles produced using these methods can be provided at relatively high yields with reduced costs.