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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19 Webster, T.J., Ergun, C., Doremus, R.H.,<br />
Siegel, R.W. <strong>and</strong> Bizios, R. (2000)<br />
Enhanced functions of osteoblasts on<br />
nanophase ceramics. Biomaterials, 22,<br />
1803–1810.<br />
20 Adamopoulos, O. <strong>and</strong> Papadopoulos, T.<br />
(2007) Nanostructured bioceramics for<br />
maxillofacial applications. Journal of<br />
Materials Science-Materials in Medicine, 18,<br />
1587–1597.<br />
21 Cai, Y., Liu, Y., Yan, W., Hu, Q., Tao, J.,<br />
Zhang, M., Shi, Z. <strong>and</strong> Tang, R. (2007) Role<br />
of hydroxyapatite nanoparticles size in<br />
bone proliferation. Journal of Materials<br />
Chemistry, 17, 3780–3787.<br />
22 Webster, T.J., Siegel, R.W. <strong>and</strong> Bizios, R.<br />
(1999) Osteoblast adhesion on nanophase<br />
ceramics. Biomaterials, 20, 1221–1227.<br />
23 Webster, T.J., Schadler, L.S., Siegel, R.W.<br />
<strong>and</strong> Bizios, R. (2001) Mechanisms of<br />
enhanced osteblast adhesion on<br />
nanophase alumina involve vitronectin.<br />
Tissue Engineering, 7, 291–301.<br />
24 Lin, Y., Taylor, S., Li, H., Fern<strong>and</strong>o, K.A.,<br />
Qu, L., Wang, W., Gu, L., Zhou, B. <strong>and</strong> Sun,<br />
Y.P. (2004) Advances toward<br />
bioapplications of carbon<br />
nanotubes. Journal of Materials Chemistry,<br />
14, 527–541.<br />
25 Smart, S.K., Cassady, A.I., Lu, G. <strong>and</strong><br />
Martin, D.J. (2006) The biocompatibility of<br />
carbon nanotubes. <strong>Carbon</strong>, 44, 1034–1047.<br />
26 Liao, S., Xu, G., Wang, W., Watari, F., Cui,<br />
F., Ramakrishna, S. <strong>and</strong> Chan, C.K. (2007)<br />
Self-assembly of nano-hydroxyapatite on<br />
multi-walled carbon nanotubes. Acta<br />
Biomaterialia, 3, 669–675.<br />
27 Zhao, L. <strong>and</strong> Gao, L. (2004) Novel in situ<br />
synthesis of MWNTs-hydroxyapatite<br />
composites. <strong>Carbon</strong>, 42, 423–426.<br />
28 Jie, W., Bao, L.Y. <strong>and</strong> Yi, H. (2005)<br />
Processing properties of nano apatitepolyamide<br />
biocomposites. Journal of<br />
Materials Science, 40, 793–796.<br />
29 Chen, Y., Gan, C., Zhang, T. <strong>and</strong> Yu, G.<br />
(2005) Laser-surfaced-alloyed carbon<br />
nanotubes reinforced hydroxyapatite<br />
composite coatings. Applied Physics Letters,<br />
86, 251905.<br />
Referencesj225<br />
30 Chen, Y., Zhang, T., Zhang, T.H., Gan,<br />
C.H., Zheng, C.Y. <strong>and</strong> Yu, G. (2006)<br />
<strong>Carbon</strong> nanotube reinforced<br />
hydroxyapatite composite coatings<br />
produced through laser surface alloying.<br />
<strong>Carbon</strong>, 44, 37–45.<br />
31 Balani, K., Anderson, R., Laha, T., Andara,<br />
M., Tercero, J., Crumpler, E. <strong>and</strong> Agarwal,<br />
A. (2007) Plasma-sprayed carbon nanotube<br />
reinforced hydroxyapatite coatings <strong>and</strong><br />
their interaction with human osteoblasts in<br />
vitro. Biomaterials, 28, 618–624.<br />
32 Balani, K., Chen, Y., Harimkar, S.P.,<br />
Dahotre, N.B. <strong>and</strong> Agarwal, A. (2007)<br />
Tribological behavior of plasma-sprayed<br />
carbon nanotube-reinforced<br />
hydroxyapatite coating in physiological<br />
solution. Acta Biomaterialia, 3, 944–951.<br />
33 Li, A., Sun, K., Dong, W. <strong>and</strong> Zhao, D.<br />
(2007) Mechanical properties,<br />
microstructure <strong>and</strong> histocompatibility of<br />
MWNTs/HAp. Materials Letters, 61,<br />
1839–1844.<br />
34 Kobayashi, S. <strong>and</strong> Kawai, W. (2007)<br />
Development of carbon nanofiber<br />
reinforced hydroxyapatite, with enhanced<br />
mechanical properties. <strong>Composites</strong> A, 38,<br />
114–123.<br />
35 Kealley, C., Elcombe, M., Riessen, A. <strong>and</strong><br />
Ben-Nissan, B. (2006) Development of<br />
carbon nanotube-reinforced<br />
hydroxyapatite bioceramics. Physica B,<br />
385–386, 496–498.<br />
36 Li, H., Zhao, N., Liu, Y., Liang, C., Shi, C.,<br />
Du, X. <strong>and</strong> Li, J. (2008) Fabrication <strong>and</strong><br />
properties of carbon nanotubes reinforced,<br />
Fe/hydroxyapatite composites by in situ<br />
chemical vapor deposition. <strong>Composites</strong> A,<br />
39, 1128–1132.<br />
37 Zhao, B., Hu, H., M<strong>and</strong>al, S.K. <strong>and</strong><br />
Haddon, R.C. (2005) A bone mimic based<br />
on the self-assembly of hydroxyapatite on<br />
chemically functionalized single-walled<br />
carbon nanotubes. Chemistry of Materials,<br />
17, 3235–3241.<br />
38 Aryal, S., Remant Bahadur, K.C.,<br />
Dharmaraj, N., Kim, K.W. <strong>and</strong> Kim, H.Y.<br />
(2006) Synthesis <strong>and</strong> characterization of<br />
hydroxyapatite using carbon nanotube as a