Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7898123 | Journal of the European Ceramic Society | 2018 | 23 Pages |
Abstract
B4C-TiB2 composites were contaminated with WC to study the effect on densification, microstructure and properties. WC was introduced through a mild or a high energy milling with WC-6â¯wt%Co spheres or directly as sintering aid to 50â¯vol% B4C / 50â¯vol%TiB2 mixtures. High energy milling was very effective in improving the densification thanks to the synergistic action of WC impurities, acting as sintering aid, and size reduction of the starting TiB2-B4C powders. As a result, the sintering temperature necessary for full densification decreased to 1860â¯Â°C and both strength and hardness benefited from the microstructure refinement, 860â¯Â±â¯40 MPa and 28.5â¯Â±â¯1.4â¯GPa respectively. High energy milling was then adopted for producing 75â¯vol% B4C/25â¯vol% TiB2 and 25â¯vol% B4C/ 75vol%TiB2 mixtures. The B4C-rich composition showed the highest hardness, 32.2â¯Â±â¯1.8â¯GPa, whilst the TiB2-rich composition showed the highest value of toughness, 5.1â¯Â±â¯0.1â¯MPaâ¯m0.5.
Related Topics
Physical Sciences and Engineering
Materials Science
Ceramics and Composites
Authors
Simone Failla, Cesare Melandri, Luca Zoli, Guido Zucca, Diletta Sciti,