Geoscience Reference
In-Depth Information
[269] M. Lencka, R.E. Riman, Thermodynamics of the hydrothermal synthesis of calcium
titanate with reference to other alkaline earth titanates, Chem. Mater. 7 (1995)
18
25.
[270] E.L. Shock, H.C. Helgeson, D.A. Sverjensky, Calculation of the thermodynamic and
transport properties of aqueous species at high pressures and temperatures: standard
partial molal properties of inorganic neutral species, Geochim. Cosmochim. Acta 53
(1989) 2157
2183.
[271] D.A. Sverjensky, E.L. Shock, H.C. Helgeson, Prediction of the thermodynamic prop-
erties of aqueous metal complexes to 1000
C and 5 kb, Geochim. Cosmochim. Acta
61 (1997) 1359
1412.
[272] W. Suchanek, H. Suda, M. Yashina, M. Kakihana, M. Yoshimura, Biocompatible
whiskers with controlled morphology and stoichiometry, J. Mater. Res. 10 (1995)
512
529.
[273] K. Yamashita, T. Kanazawa, Hydroxyapatite, in: T. Kanazawa (Ed.), Inorganic
Phosphate Materials, Kodansha and Elsevier, 1989, pp. 23
24. Materials Science
Monograph, 52, p. 15.
[273a] G.N. Ehsani, A.J. Ruys, C.C. Sorrell, Microwave sintering of hydroxyapatite, in: C.C.
Sorrell, A.J. Ruys (Eds.), International Ceramic Monographs, Proceedings of the
International Ceramics Conference 1, 1994, pp. 714
721.
[274] M.R. Mucalo, Y. Yokogawa, M. Toriyama, T. Suzuki, Y. Kawamoto, F. Nagata, et
al., Growth of calcium phosphate on phosphorylated cotton fibers, Apatite 2 (1997)
71
73.
[274a] T. Yoshioka, A. Hasame, S. Watanabe, S.M. Shin, A. Okuwaki, Determination of
oxalic acid and benzene carboxylic acids from PVC materials by oxygen—oxidation
in NaOH solutions at elevated temperatures, in: Proceedings of the Second
International Conference on Solvothermal Reactions, Takamatsu, Japan, December
18
20, 1996, pp. 46
49.
[275] R.L. SmithJr., P. Atmaji, Y. Hakuta, T. Adschiri, K. Arai, Hydrothermal crystalliza-
tion of metals from simulated high level liquid waste, in: Proceedings of the Second
International Conference on Solvothermal Reactions, Takamatsu, Japan, December
18
20, 1996, pp. 42
45, 50
53.
[275a] H. Takahashi, M. Yashima, M. Kakihana, M. Yoshimura, Synthesis of stoichiometric
(Ca/P
5
1.67) HAp by a gel route from the aqueous solution of citric and phosphonoa-
cetic acids, Eur. J. Solid State Inorg. Chem. 32 (1995) 829
835.
[276] T. Hashida, H. Takahashi, Development of solvothermal methods for recycling con-
crete wastes, in: Proceedings of the Second International Conference on Solvothermal
Reactions, Takamatsu, Japan, December 18
20, 1996, pp. 152
155.
[276a] H. Aoki, Science and Medical Applications of HAp, JAAS, Tokyo, 1991.
[277] N. Yamasaki, Y. Yamasaki, Hydrothermal decomposition of chlorinated organic com-
pounds, in: Proceedings of the Second International Conference on Solvothermal
Reactions, Takamatsu, Japan, December 18
20, 1996, pp. 139
142.
[277a] K. Inoue, H. Ohgush, T. Yoshikawa, M. Okumura, T. Sempuku, S. Tamai, et al., The
effect of aging on bone formation in porous hydroxyapatite: biochemical and histo-
logical analysis, J. Bone Miner. Res. 12 (1997) 989
994.
[278] K. Itatani, O. Takahashi, A. Kishioka, M. Kinoshita, Properties of hydroxyapatite
prepared by spray-pyrolysis technique, J. Gypsum Lime 213 (1988) 77 (Japan)
[279] M. Aizawa, K. Itatani, F.S. Howell, A. Kishioka, Formation of porous calcium phos-
phate films on partially stabilized zirconia substrates by the spray
pyrolysis tech-
nique, J. Mater. Sci. 30 (1995) 4936
4945.
