Progress in Nanotechnology - Applications

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Informationen zum Autor The American Ceramic Society (ACerS) is a 100-year old non-profit organization that serves the informational, educational, and professional needs of the international ceramics community. Klappentext This edition of Progress in Ceramic Technology series is a select compilation of articles on nanotechnology applications and markets previously published in ACerS publications, including The American Ceramic Society Bulletin, Journal of the American Ceramic Society, International Journal of Applied Ceramic Technology, Ceramic Engineering and Science Proceedings (CESP) and Ceramic Transactions (CT).The American Ceramic Society contributes to the progress of nanotechnology by providing forums for information exchange during its various meetings and by publishing articles in its various journals and proceedings. Zusammenfassung A compilation of articles on nanotechnology applications and markets previously published in ACerS publications, including "The American Ceramic Society Bulletin", "Journal of the American Ceramic Society", "International Journal of Applied Ceramic Technology", "Ceramic Engineering and Science Proceedings (CESP)" and "Ceramic Transactions (CT)". Inhaltsverzeichnis Contents Introduction Market Overviews Rolling Nanotech Out of the Lab and Into the Market 3 J. Sawyer Ceramic Revolution May Yet Arrive via Nanotechnology 9 K. Blakely Powder Market Update: Nanoceramic Applications Emerge 13 T. Abraham Biomedical Technology Fabrication of Nano-Macro Porous Soda-Lime Phosphosilicate Bioactive Glass by the Melt-Quench Method 19 H. M. M. Moawad and H. Jain Biological Response Mechanisms to Microparticulate and Nanoparticulate Matter 33 M. Chary, R. Baier, P. Nickerson, and J. Natiella Alumind/Zirconia Micro/Nanocomposites: A New Material for Biomedical Applications With Superior Sliding Wear Resistance 37 J. Bartolome, A. De Aza , A. Martin, J. Pastor, J. Llorca, R. Torrecillas, and G. Bruno Creation of Nano-Macro-Interconnected Porosity in a Bioactive Glass-Ceramic by the Melt-Quench-Heat-Etch Method 45 H. Moawad and H. Jain Processing and Properties of Nano-Hydroxyapatite(n-HAp)/Poly(Ethylene-Co-Acrylic Acid)(EAA) Composite Using a Phosphonic Acid Coupling Agent for Orthopedic Applications 49 N. Pramanik, S. Mohapatra, P. Pramanik, and P. Bhargava Hydroxyapatite-Carbon Nanotube Composites for Biomedical Applications: A Review 57 A. White, S. Best, and I. Kinloch Synthesis and Structural Characterization of Nanoapatite Ceramics Powders for Biomedical Applications 71 K. Ando, M. Ohkubo, S. Hayakawa, K. Tsuru, A. Osaka, E. Fujii, K. Kawabata, C. Bonhomme, and F. Babonneau High-Frequency Induction Heat Sintering of Mechanically Alloyed Alumina-Yttria-Stabilized Zirconia Nano-Bioceramics 79 S. Kim and K. Khalil Merging Biological Self-Assembly with Synthetic Chemical Tailoring: The Potential for 3-D Genetically Engineered Micro/Nano-Devices (3-D GEMS) 85 K. Sandhage, S. Allan, M. Dickerson, C. Gaddis, S. Shian, M. Weatherspoon, Y. Cai, G. Ahmad, M. Haluska, R. Snyder, R. Unocic, F. Zalar, Y. Zhang, R. Rapp, M. Hildebrand, and B. Palenik Construction and Manufacturing Effect of Nanosilica Additions on Belite Cement Pastes Held in Sulfate Solutions 97 J. Dolado, I. Campillo, E. Erkizia, J. Ibaiiez, A. Porro, A. Guerrero, and S. Goiii Effect of Nano-Size Powders on the Microstructure of Ti(C,N)-xWC-Ni Cermets 101 J. Jung and S. Kang In Situ Preparation of Si3N,/SiC Nanocomposites for Cutting Tools Application 107 P.Sajgalik, M. Hnatko, Z. LenEeS, J. Dusza, and M. KaSiarova How Nanotechnology Can Change the Conc...