Biomedical Engineering Reference
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103. Xiong, H. P., Mao, W., Xie, Y. H., Chen, B., Guo, W. L., Li, X. H. and Cheng, Y. Y., Mater. Lett.,
61 (2007) 4662.
104. Prakash, P., Mohandas, T. and Raju, P. D., Scripta Mater., 52 (2005) 1169.
105. Chen, B., Xiong, H. P., Mao, W., Guo, W. L., Cheng, Y. Y. and Li, X. H., Acta Metall Sini., 43
(2007) 1181.
106. Liu, G. W., Qiao, G. J., Wang, H. J., Yang, J. F. and Lu, T. J., J. Eur. Ceram. Soc., 28 (2008)
2701.
107. Liu, G. W., Li, W., Qiao, G. J., Wang, H. J., Yang, J. F. and Lu, T. J., J. Alloys Compd., 470
(2009) 163.
108. Zhang, C. G., Qiao, G. J. and Jin, Z. H., J. Eur. Ceram. Soc., 22 (2002) 2181.
109. Qiao, G. J., Zhang, C. G. and Jin, Z. H., Ceram. Int., 29 (2003) 7.
110. Hattali, M. L., Valette, S., Ropital, F., Mesrati, N. and Treheux, D., J. Mater. Sci., 44 (2009)
3198.
111. Li, S. J., Zhou, Y., Duan, H. P., Qiu, J. H. and Zhang, Y., J. Mater. Sci., 38 (2003) 4065.
112. Buhl, S., Leinenbach, C., Wegener, K. and Spolenak, R., J. Mater. Sci., 45 (2010) 4358-4368.
113. Schindler, H. J. and Leinenback, C., J. ASTM Int., 7 (2010) 102515.
114. Munro, R. G., J. Res. NIST, 105 (2000) 709-720.
115. Fahrenholtz, W. G., Hilmas, G. E., Talmy, I. G. and Zaykoski, J. A., J. Am. Ceram. Soc., 90
(2007) 1347-1364.
116. Opeka, M. M., Talmy, I. G. and Zaykoski, J. A., J. Mater. Sci., 39 (2004) 5887.
117. Van Wie, D. M., Drewry, D. G. Jr., King, D. E. and Hudson, C. M., J. Mater. Sci., 39 (2004)
5915.
118. Bonal, J. P., Kohyama, A., Van der Laan, J. and Snead, L. L., MRS Bull., 34 (2009) 28-34.
119. Giancarli, L., Bonal, J. P., Caso, A., Le Marois, G., Morly, N. B. and Salavy, J. F., Fusion Eng.
Design, 41 (1998) 165-171.
120. Kuwabara, K., Sakamoto, S., Kida, O., Ishino, T., Kodama, T., Nakajima, H., Ito, T. and Hi-
rakawa, Y., Corrosion resistance and electrical resistivity of ZrB2 monolithic refractories, in:
The Proceedings of UNITECR 2003. The 8th Biennial Worldwide Conference on Refractories,
Osaka, Japan, K. Asano (Ed.). Technical Association of Refractories, Japan, 2003, pp. 302-305.
121. Weimer, A. M., Carbide, Nitride and Boride Materials, Synthesis and Processing. Chapman &
Hall, NY, 1997.
122. Jin, Z. J., Zhang, M., Guo, D. M. and Kang, R. K., Key Eng. Mater., 291-292 (2005) 537.
123. Sung, J., Goedde, D. M., Girolami, G. S. and Abelson, J. R., J. Appl. Phys., 91 (2002) 3904.
124. Murata, Y., U.S. Patent, 3 (1970) 487-594.
125. Sciti, D., Melandri, C. and Bellosi, A., Adv. Eng. Mat., 6 (2004) 775-781.
126. Monteverde, F. and Bellosi, A., J. Eur. Cer. Soc., 25 (2005) 1025-1031.
127. Medri, V., Balbo, A., Monteverde, F. and Bellosi, A., Adv. Eng. Mat., 7 (2005) 159-163.
128. Monteverde, F. and Bellosi, A., J. Mater. Res., 19 (2004) 3576-3585.
129. Monteverde, F., J. Mater. Sci., 43 (2008) 1002-1007.
130. Saiz, E., Tomsia, A. P. and Cannon, R. M., Scripta Mater., 44 (2001) 159-164.
131. Eustathopoulos, N., Sobczak, N., Passerone, A. and Nogi, K., J. Mater. Sci., 40 (2005) 2271-
2280.
132. Daolio, S., Fabrizio, M., Piccirillo, C., Muolo, M. L., Passerone, A. and Bellosi A., Rapid Comm.
Mass. Spectr., 15 (2001) 1-12.
133. Samsonov, G. V., Panasyuk, A. D. and Borovikova, M. S., Poroshkovaya Metallurgiya, 5 (1973)
61.
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