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Harbers, Craig
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document
Characterisation and Wear Properties of Thermally Stable Diamond Composites
Abstract
Ever since the outstanding abrasive wear resistance of thermally stable diamond composite (TSDC) materials was demonstrated (Li and Boland, 2005), there has been a major effort to develop tooling suitable for application in the mining, civil construction and manufacturing industries using this grade of diamond composite. The major obstacles in the development of such tooling have been: (a) high initial costs of both the constituents and equipment needed to manufacture the composites, (b) supply and access to quality-consistent materials and (c) reliable methods of bonding the diamond composite in tools. With ready access to low-cost synthetic diamond material, even in the nanodiamond size-range and proven bonding techniques available, the remaining issue is the production of quality-guaranteed material.The focus of CSIRO’s research has been the study of the microstructure and phase distribution in TSDC as well as assess the suitability of this grade of diamond composite for a wide range of industrial applications.