Affiliation:
1. China Building Materials Academy
Abstract
Highly dense AlN/CNT composite ceramics with 1-10% volume fractions of CNT were fabricated by spark plasma sintered (SPS) at 1400°C-1700°C. The results indicated that origination diameter of AlN had a great effect on microstructure and thermal conductivity. In details, for the system with AlN origination diameter of nanosized, the tubular structure of CNT has not been destructed, but when micro-sized AlN powder was adopted, the structure of CNT showed unstable at high temperature. Even though the degradation with incorporation of CNT into AlN, thermal conductivity of sintered AlN/CNT composites ceramics was evidently improved by adjusting content of additive Y2O3and the sintering process. Both the real part and imaginary part of the composites of Ka-Band (26.540.0 GHz) increase with the increase of CNT content, in which the increase of imaginary part is more than that of real part, resulting in an increase of loss factor. The AlN/ CNT thermal conductivity composites with appropriate CNT content and sintering temperature possess good dielectric dissipation and thermal conductivity.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference7 articles.
1. B. Mikijelj, D. K Abe, R.H. Cheon. J. Europ. Ceram. Soc. 23(2003) 2705-2709.
2. B. Mikijelj, D. K Abe. 3rd IEEE International Vacuum Electronics Conference. 32(2002) 275-279.
3. G.A. Slack, R. A. Tanzilli, R.O. Pohl, J. Physics and Chemistry of Solids. 48(1987) 641-647.
4. A.R. Olszyna, A. Sokolowska, J. Szmidt, J. Inorganic Materials. 3(2001) 1311-1333.
5. Wang Y. Phy Chem. 1991, 95(1991) 912-915.
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