Carbon Nanotube Reinforced Composites: Metal and Ceramic ...
Carbon Nanotube Reinforced Composites: Metal and Ceramic ...
Carbon Nanotube Reinforced Composites: Metal and Ceramic ...
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Al2O3-SiCp nanocomposites. Journal of<br />
Materials Science, 34, 5557–5567.<br />
26 Gao, L., Wang, H.Z., Hong, J.S.,<br />
Miyamoto, H., Miyamoto, K., Nishikawa,<br />
Y. <strong>and</strong> Torre, S.D. (1999) Mechanical<br />
properties <strong>and</strong> microstructures of nano-<br />
SiC-Al 2O 3 composites densified by spark<br />
plasma sintering. Journal of the European<br />
<strong>Ceramic</strong> Society, 19, 609–613.<br />
27 Galusek, D., Sedlacek, J., Svancarek, P.,<br />
Riedel, R., Satet, R. <strong>and</strong> Hoffman, M.<br />
(2007) the influence of post-sintering HIP<br />
on the microstructure, hardness <strong>and</strong><br />
indentation fracture toughness of<br />
polymer-derived Al2O3-SiC<br />
nanocomposites. Journal of the European<br />
<strong>Ceramic</strong> Society, 27, 1237–1245.<br />
28 Tan, H. <strong>and</strong> Yang, W. (1998) Toughening<br />
mechanisms of nanocomposite ceramics.<br />
Mechanics of Materials, 30, 111–123.<br />
29 Zhang, Y., Wang, L., Jiang, W., Chen, L.<br />
<strong>and</strong> Bai, G. (2006) Microstructure <strong>and</strong><br />
properties of Al 2O 3-TiC nanocomposites<br />
fabricated by spark plasma sintering from<br />
high-energy ball milled reactants. Journal<br />
of the European <strong>Ceramic</strong> Society, 26,<br />
3393–3397.<br />
30 Zhu, W.Z., Gao, J.H. <strong>and</strong> Ding, Z.S.<br />
(1997) Microstructure <strong>and</strong> mechanical<br />
properties of a Si 3N 4/Al 2O 3<br />
nanocomposite. Journal of Materials<br />
Science, 32, 537–542.<br />
31 Balog, M., Keckes, J., Schoberl, T.,<br />
Galusek, D., Hofer, F., Krest an, J.,<br />
Lences, Z., Huang, J.L. <strong>and</strong> Sajgalik, P.<br />
(2007) Nano/macro-hardness <strong>and</strong><br />
fracture resistance of Si3N4/SiC<br />
nanocomposites with up to 13 wt% of SiC<br />
nanoparticles. Journal of the European<br />
<strong>Ceramic</strong> Society, 27, 2145–2152.<br />
32 Isobe, T., Daimon, K., Ito, K., Matsubara,<br />
T., Hikichi, Y. <strong>and</strong> Ota, T. (2007)<br />
Preparation <strong>and</strong> properties of Al 2O 3/Ni<br />
composite from NiAl2O4 spinel by in-situ<br />
reaction sintering method. <strong>Ceramic</strong>s<br />
International, 33, 1211–1215.<br />
33 Isobe, T., Daimon, K., Sato, T., Matsubara,<br />
T., Hikichi, Y. <strong>and</strong> Ota, T. (2008) Spark<br />
plasma sintering technique for reaction<br />
Referencesj163<br />
sintering of Al2O3/Ni nanocomposite <strong>and</strong><br />
its mechanical properties. <strong>Ceramic</strong>s<br />
International, 34, 213–217.<br />
34 Bhaduri, S. <strong>and</strong> Bhaduri, S.S. (1997)<br />
Enhanced low temperature toughness of<br />
Al 2O 3- ZrO 2 nano/nano composites.<br />
Nanostruct Mater, 8, 755–763.<br />
35 Mishra, R.S. <strong>and</strong> Mukherjee, A.K. (2001)<br />
Processing of high hardness-high<br />
toughness alumina matrix<br />
nanocomposites. Materials Science <strong>and</strong><br />
Engineering A, 301, 97–101.<br />
36 Qiu, L.X., Yao, B., Ding, Z.H., Zheng,<br />
Y.Z., Jia, X.P. <strong>and</strong> Zheng, W.T. (2008)<br />
Characterization of structure <strong>and</strong><br />
properties of TiN-TiB 2 nanocomposite<br />
prepared by ball milling <strong>and</strong> high<br />
pressure heat treatment. Journal of Alloys<br />
<strong>and</strong> Compounds, 456, 436–440.<br />
37 Sternitzke, M. (1997) Review: structural<br />
ceramic nanocomposites. Journal of the<br />
European <strong>Ceramic</strong> Society, 17, 1061–1082.<br />
38 Huang, J.Y., Chen, S., Wang, Z.Q.,<br />
Kempa, K., Wang, Y.M., Jo, S.H., Chen,<br />
G., Dresselhaus, M.S. <strong>and</strong> Ren, Z.F.<br />
(2006) Superplastic carbon nanotubes.<br />
Nature, 439, 281.<br />
39 Peigney, A., Flahaut, F., Laurent, C.,<br />
Chastel, F. <strong>and</strong> Rousset, A. (2002) Aligned<br />
carbon nanotubes in ceramic-matrix<br />
nanocomposites prepared by hightemperature<br />
extrusion. Chemical Physics<br />
Letters, 352, 20–25.<br />
40 Zhan, G., Kuntz, J.D. <strong>and</strong> Mukherjee, A.K.<br />
(2005) Anisotropic thermal applications of<br />
composites of ceramics <strong>and</strong> carbon<br />
nanotubes. US Patent 6976532.<br />
41 Ma, R.Z., Wu, J., Wei, B.Q., Liang, J. <strong>and</strong><br />
Wu, D.H. (1998) Processing <strong>and</strong><br />
properties of carbon nanotubes-nano-SiC<br />
ceramic. Journal of Materials Science, 33,<br />
5243–5246.<br />
42 Laurent, C., Peigney, A., Dumortier, O.<br />
<strong>and</strong> Rousser, A. (1998) <strong>Carbon</strong> nanotubes-<br />
Fe-alumina nanocomposites. Part II:<br />
Microstructure <strong>and</strong> mechanical<br />
properties of the hot pressed composites.<br />
Journal of the European <strong>Ceramic</strong> Society, 18,<br />
2005–2013.