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  1. ˜_•¶iArchival journalj

  2. ˜_•¶iConference proceedingsj

  3. ‹I—v

  4. Šw‰ï”­•\

  5. ’˜‘

A. ˜_•¶iArchival journalj

1. A. Uehara, M. Kitayama, M. Suzuki, and R. Tsuchiya, gThermal Reactions of Metal Complexes under Quasi-isothermal and isobaric Conditions. 4. Solid-Phase Thermal Reactions of Ruthenium(II)-Pentaammine Complexes Containing Dinitrogen and Related Ligands,h Inorg. Chem., 24, 2184-89 (1985).

2. M. Kitayama and J. A. Pask, gFormation and Control of Agglomerates in Alumina Powder,h J. Am. Ceram. Soc., 79 [8] 2003-11 (1996).

3. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gModeling and Simulation of Grain Growth in b-Si3N4: I. Anisotropic Ostwald Ripening,h Acta mater., 46 [18] 6541-50 (1998).

4. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gModeling and Simulation of Grain Growth in b-Si3N4: II. The a-b Transformation,h Acta mater., 46 [18] 6551-57 (1998).

5. M. Kitayama, J. D. Powers, L. Kulinsky and A. M. Glaeser, "Surface and Interface Properties of Alumina via Model Studies of Microdesigned Interfaces," J. Euro. Ceram. Soc., 19, 2191-2209 (1999).

6. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gExperimental Evidence of the Anisotropic Ostwald Ripening of b-Si3N4,h J. Am. Ceram. Soc., 82 [10] 2931(1999).

7. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gControl of b-Si3N4 Crystal Morphology and its Mechanism: I. Effect of SiO2 and Y2O3 ratio,h J. Ceram. Soc. Japan, 107 [10] 930-934 (1999).

8. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gControl of b-Si3N4 Crystal Morphology and its Mechanism: II. Effect of Lanthanide Additives,h J. Ceram. Soc. Japan, 107 [11] 995-1000 (1999).

9. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gThermal Conductivity of b-Si3N4 I. Effects of Various Microstructural Factors,h J. Am. Ceram. Soc., 82 [11] 3105-12 (1999).

10. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gOxygen Content in b-Si3N4 Crystal Lattice,h J. Am. Ceram. Soc., 82 [11] 3263-65 (1999).

11. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gComment on gMorphology of Silicon Nitride Grown from a Liquid Phaseh,h J. Am. Ceram. Soc., 83 [3] 675-76 (2000).

12. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gHigh Hardness a-Si3N4 ceramics reinforced by Rod-like b-Si3N4 particles,h J. Ceram. Soc. Jpn., 108 [7] 646-49 (2000).

13. M. Kitayama, K. Hirao, A. Tsuge, K. Watari, M. Toriyama and S. Kanzaki, gThermal Conductivity of b-Si3N4 II. Effect of Lattice Oxygen,h J. Am. Ceram. Soc., 83 [8] 1985-92 (2000).

14. M. Kitayama, T. Narushima, W. C. Carter, R. M. Cannon, Jr. and A. M. Glaeser, gThe Wulff Shape of Alumina: I. Modeling the Kinetics of Morphological Evolution,h J. Am. Ceram. Soc., 83 [10] 2561-71 (2000).

15. M. Kitayama, T. Narushima and A. M. Glaeser, gThe Wulff Shape of Alumina: II. Experimental Measurements of Pore Shape Evolution Rates,h J. Am. Ceram. Soc., 83 [10] 2572-83 (2000).

16. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gModeling and Simulation of Grain Growth in b-Si3N4: III. Tip Shape Evolution,h Acta mater., 48 [18-19] 4635-40 (2000).

17. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gThermal Conductivity of b-Si3N4 III. Effects of Rare-Earth (RE = La, Nd, Gd, Yb, Y and Sc) Oxide Additives,h J. Am. Ceram. Soc., 84 [2] (2001).

B. ˜_•¶iConference proceedingsj

1. J. D. Powers, L. Kulinsky, M. Kitayama, and A. M. Glaeser, gEffects of Titanium Doping on Surface Properties of Alumina,edited by D. Bonnell, M. Ruhle, h pp. 313-18 in Structure and Properties of Interfaces in Ceramics, and U. Chowdhry, Mater. Res. Soc. Proc., 357, U. Pittsburgh, PA (1995). Properties of Interfaces in (Structure and Ceramics Symposium, Boston, MA, USA, 28 Nov.-2 Dec. 1994).

2. M. Kitayama and A. M. Glaeser, gA new Method for Characterizing Equilibrium Pore Shapes in Ceramics,h, Materials Science Forum, 207-09, Part 1, 389-92 (1996). (Proceedings of the 7th International Conference on Intergranular and Interphase Boundaries in Materials, Lisbon, Portugal, June 26-29, 1995).

3. M. Kitayama and A. M. Glaeser, gThe Kinetics of Shape Evolution of Pores in Alumina,h Journal of Materials Synthesis and Processing, 6 [3] 161-7 (1998). (Symposium on Interfaces of Ceramic Materials. Part of 4th IUMRS International Conference in Asia (IUMRS-ICA-97), Chiba, Japan, 17-18 Sept. 1997).

4. M. Kitayama and A. M. Glaeser, gA New Method for Determining the Wulff Shape of Alumina,h pp. 285-92 in Sintering Technology, Edited by R. M. German, G. L. Messing and R. G. Cornwall, Marcel Dekker, NY (1996).

5. M. Kitayama, J. D. Powers, L. Kulinsky and A. M. Glaeser, "Microdesigned Interfaces: New Opportunities for Studies of Surfaces and Grain Boundaries," pp. 229-38 in Ceramic Microstructures: Control at the Atomic Level, A. P. Tomsia and A. M. Glaeser, Eds. Plenum Press, New York, (1998).

6. M. Kitayama, J. D. Powers and A. M. Glaeser, gNovel routes to functionally graded ceramics via atmosphere-induced dopant valence gradients,h p. 325-30 in Functionally Graded Materials, Edited by I. Shiota, and Y. Miyamoto, Elsevier, Amsterdam, Netherlands (1997). (Functionally Graded Materials 1996. Proceedings of the 4th International Symposium on Functionally Graded Materials (ISBN 0 444 82548 7), Tsukuba, Japan, 21-24 Oct. 1996).

7. M. Kitayama and A. M. Glaeser, gThe Kinetics of Shape Evolution of Pores in Alumina,h Journal of Materials Synthesis and Processing, 6 [3] 161-7 (1998) (Symposium on Interfaces of Ceramic Materials. Part of 4th IUMRS International Conference in Asia (IUMRS-ICA-97), Chiba, Japan, 17-18 Sept. 1997).

8. M. Kitayama and A. M. Glaeser, gThe Energetics and Kinetics of Pore Shape Changes in Alumina,h Key Engineering Materials, 159-160, 193-204 (1998) (International Symposium on Novel Synthesis and Processing of Ceramics, Oct. 26-29, 1997, Kurume, Japan).

9. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gAnisotropic Ostwald Ripening in b-Si3N4 with Different Lanthanide Additives,h pp. 517-24 in Ceramic Processing Science, Ceramic Transactions, Vol. 83, G. L. Messing, S. Hirano and F. F. Lange, Eds., Am. Ceram. Soc., OH (1998).

C. ‹I—v

1. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gControl of b-Si3N4 Crystal Morphology by Lanthanide Additives and its Mechanism,h Reports of National Industrial Research Institute of Nagoya, XL VI [11, 12] 495-500 (1998).

D. Šw‰ï”­•\

1. M. Kitayama and J. A. Pask, gFormation and Control of Agglomerates in Alumina Powder,h presented at American Ceramics Society 95th Annual Meeting, Minneapolis, MN, USA (1993).

2. M. Kitayama and A. M. Glaeser, gA New Method for Determining the Wulff Shape of Alumina,h presented at Sintering f95, The First International Conference on the Science, Technology, and Applications of Sintering, Pennsylvania, PA, USA (1995).

3. M. Kitayama, J. D. Powers, L. Kulinsky and A. M. Glaeser, "Microdesigned Interfaces: New Opportunities for Studies of Surfaces and Grain Boundaries," presented at Ceramic Microstructures e96: Control at the Atomic Level, Berkeley, CA, USA (1996).

4. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gAnisotropic Ostwald Ripening in b-Si3N4 with Different Lanthanide Additives,h presented at Ceramic Processing f97, 6th International Conference on Ceramic Processing Science, Santa Barbara, CA, USA (1997).

5. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gAnisotropic Ostwald Ripening in b-Si3N4h presented at 6th International Symposium on Ceramic Materials and Components for Engines, Arita, Japan (1997).

6. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gThe Anisotropic Ostwald Ripening in Silicon Nitrideh presented at American Ceramics Society 100th Annual Meeting, Cincinnati, OH, USA (1998).

7. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gControl of b-Si3N4 Crystal Morphology and its Mechanism: I. Effect of SiO2 and Y2O3 ratio,h presented at Ceramic Society of Japan 1999 Annual Meeting, Tokyo, Japan (1999).

8. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gControl of b-Si3N4 Crystal Morphology and its Mechanism: II. Effect of Lanthanide Additives,h presented at Ceramic Society of Japan 1999 Annual Meeting, Tokyo, Japan (1999).

9. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gAnisotropic Ostwald Ripening in Si3N4h presented at Japan Institute of Metal 1999 Annual Meeting, Tokyo, Japan (1999).

10. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gModeling and Simulation of Grain Growth in b-Si3N4: III. Tip Shape Evolution,h presented at Workshop on Ceramic and Bimaterial Interfaces: Designing for Properties, Seville, Spain (1999).

11. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gThermal Conductivity of b-Si3N4 I. Effects of Various Microstructural Factors,h presented at Pacific Coast Regional, Basic Science Division and Electronics Division Meeting of the American Ceramics Society, Bellevue, WA, USA (1999).

12. M. Kitayama, K. Hirao, A. Tsuge, K. Watari, M. Toriyama and S. Kanzaki, gThermal Conductivity of b-Si3N4 II. Effect of Lattice Oxygen,h presented at Pacific Coast Regional, Basic Science Division and Electronics Division Meeting of the American Ceramics Society, Bellevue, WA, USA (1999).

13. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gAnisotropic Ostwald Ripening in Silicon Nitrideh presented at Sintering f99, The Second International Conference on the Science, Technology, and Applications of Sintering, Pennsylvania, PA, USA (1999).

14. M. Kitayama, K. Hirao, M. Toriyama and S. Kanzaki, gOn the Interfacial Reaction Controled Kinetics of the Phase Transformation in Si3N4," presented at Inter-Granular Film Meeting, Japan Fine Ceramics Center, Japan (2000).

E. ’˜‘

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