TOP > 研究報告検索 > 環境低負荷型の社会システム 低環境負荷エネルギー用複合機能構造材料の開発

環境低負荷型の社会システム 低環境負荷エネルギー用複合機能構造材料の開発

研究報告コード R990004352
掲載日 2001年2月6日
研究者
  • 香山 晃
研究者所属機関
  • 京都大学エネルギー理工学研究所
研究機関
  • 京都大学エネルギー理工学研究所
報告名称 環境低負荷型の社会システム 低環境負荷エネルギー用複合機能構造材料の開発
報告概要 環境低負荷型のエネルギー生産システムを成立させる鍵となる高性能材料・システムの開発を行っている。セラミックス基および高融点金属基複合材料の核融合炉、高温ガス炉、超高温燃焼システム等による電気エネルギー生成に応用するために、炭化ケイ素基およびタングステン基複合材料、並びに複合化要素部材の開発、システム設計、特性評価を行った。技術開発の成果は次の通りである。
1)ケイ素系ポリマーを原料とする細径・長繊維としてSiC繊維の特性改善、
2)反応焼結法による高性能かつ安価なSiC開発、
3)ポリマー含浸・焼結法による高性能SiC/SiC複合材料の開発、
4)新ポリマーおよび新フィラーの利用による化学量論組成のSiC/SiC複合材料の開発、
5)気相浸透反応法によるSiC繊維表面の改善によるSiC/SiC複合材料特性改善、
6)SiC/SiC複合材料の接合法としてのRS接合法、ガラス接合法の確立、
7)高温特性の優れたW/W複合材料の開発。
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研究分野
  • 非金属のその他の熱的性質
  • 金属系複合材料一般
  • 核融合装置
関連発表論文 1. Y. Shi, H.Araki, W.Yang, S,Sato, T.Noda and A.Kohyama, “The relationship on properties, processing and microstructure of advanced ceramics”, Ed. by Jingkun Guo, Xi Yao (2000) p.p.155-162.
2. A.Kohyama, “A New Project on R & D of Advanced Material Systems for Conversion of Energy: CREST-ACE Program”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications(1999) p.p.1-6
3. R. Yamada, “An Overview of JAERI's SiC/SiC Development Program” Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.17-21
4. 岡村清人、「最近の無機繊維の動向と将来」、ハイテクインフォメ-ション(財)中国技術振興センタ-編 (1999)
5. 岡村清人、「セラミックス系複合材料への応用における前駆体ポリマ-の最近の話題」、名古屋工業大学共同研究センタ-ニュ-ス、10(1999) p.p.26-33
6. M. Kotani, A. Kohyama, K. Okamura and T. Inoue, “Fabrication of High Performance SiC/SiC Composite by Polymer Infiltration and Pyrolysis Method”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.309-316.
7. M. Narisawa, A.Idesaki, S. Kitano, K. Okamura, M. Sugimoto, T. Seguchi and M. Itoh, “Use of Blended Precursors of Poly(vinylsilane) in Polycarbosilane for Silicon Carbide Fiber Synthesis with Radiation Curing”, J. Am. Ceram. Soc.82[4](1999) p.p.1045-51.
8. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “High-Temperature Properties and Creep Resistance of Near-Stoichiometric SiC Fibers”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.443-450.
9. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “Evaluation of Advanced SiC Fibers for Reinforcement of CMC”, Proceeding of 12th International Conference on Composite Materials (ICCM-12), CD-ROM(1999) .
10. G.E. Youngblood, C.R. Eiholzer, C.A. Lewinsohn and R.H. Jones, A. Hasegawa and A. Kohyama, “Fiber Diameter Variation/Sample Preparation and Analysis”,Ceramic Engineering and Science Proceedings, 20 [3](1999) p.p.481-487.
11. A. Kohyama, E.E. Bloom and K. Ehrich, “Summary of Discussion Session: Design and Materials”, Journal of Nuclear Materials, 271-272(1999) p.p.538-539.
12. T. Shibayama, G.W. He, H. Takahashi and A. Kohayma, “Environmental Effects of Microstructural Stability in SiC.SiC Composites”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.167-173.
13. T. Shibayama, G.W. He, H. Takahashi, Y. Katoh and A. Kohyama, “Environmental Effects of Microstructural Stability in SiC/SiC Composites”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.161-168.
14. T. Noda, H. Araki, W. Yang and Akira Kohyama, “Thermal Stabilities of CVI SiCf/SiC Composites”, Ceramic Engineering and Science Proceedings”, 20 [4](1999) p.p.387-394.
15. H. Serizawa, H. Murakawa and Z. Q. Wu, “Computational Method for Static and Dynamic Crack Growth Using Interface Potential Energy”, Proceedings of the Eighth International Conference on Mechanical Behaviour of Materials (ICM8), Progress in Mechanical Behaviour of Materials”, Vol. I(1999) p.p.261-266.
16. M. Shibahara, H. Serizawa and H. Murakawa, “Finite Element Method for Hot Cracking Using Temperature Dependent Interface Element”, Transactions of JWRI, Vol.28 No.1(1999) p.p.47-53.
17. H. Murakawa, H. Serizawa and Z. Q. Wu, “Computational Analysis of Crack Growth in Composite Materials Using Lennard-Jones Type Potential Function”, Ceramic Engineering and Science Proceedings, 20 [3](1999) p.p.309-316.
18. H. Murakawa, H. Serizawa and Z.Q. Wu, “Computational Analysis of Crack Growth in Composite Materials Using Lennard-Jones Type Potential Function”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.94-101.
19. M. Ando, H. Serizawa, C.A. Lewinsohn, and H. Murakawa, “New FEM Analysis of Crack Growth Behavior in Composite Materials”, Proceeding of 12th International Conference on Composite Materials (ICCM-12), CD-ROM(1999).
20. T. Iseki, M. Narisawa, K. Okamura, K. Oka and T. Dohmaru, “Highly Cross-Linked Precursors to Silicon Carbide Ceramic Engineering and Science Proceedings”, 20 [4](1999) p.p.317-322.
21. T. Iseki, M. Narisawa, K. Okamura, K. Oka and T. Dohmaru, “Reflux Heat-Treated Polymethylsilane as a Precursor to Silicon Carbide”, J. Mater. Sci. Lett., 18(1999) p.p.185-187.
22. T. Nakayasu, M. Sato, T. Yamamura, K. Okamura, Y. Katoh and A. Kohyama, “Recent Advancement of Tyranno/SiC Composites R & D”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.71-75.
23. T. Nakayasu, M. Sato, Y. Yamamura, K. Okamura, K. Katoh and A. Kohyama, “Recent Advancement of Tyranno/SiC Composites R & D”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.301-308.
24. C.A. Lewinsohn, R. H. Jones, M. Singh, T. Shibayama, T. Hinoki, M. Ando and A. Kohyama, “Methods for Joining Silion Carbide Composites for High-Temperature, Structural Applications”, Ceramic Engineering and Science Proceedings, 20 [3](1999) p.p.119-124.
25. C.A. Lewinsohn, R.H. Jones, M.Singh, T. Shibayama, T. Hinoki, M. Ando, Y. Katoh and A. Kohyama, “Low Activation Joining of SiC/SiC Composites”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.126-131.
26. C.A. Lewinsohn, R.H.Jones, M.Singh, T.Shibayama, T.Hinoki, M.Ando, Y.Katoh and A.Kohyama, “Methods for Joining Silicon Carbide Composites for High Temperature Structural Applications”, Fusion Materials Semi-Annual Report
27. DOE/ER-0313/25(1999) p.p.87-99.
28. C.A. Lewinsohn, R.H.Jones, T.Shibayama, T.Hinoki, M.Ando, Y.Katoh and A.Kohyama, “Methods for Joining Silicon Carbide Composites for High Temperature Structural Applications”, Fusion Materials, DOE/ER-0313/26(1999) p.p.65-71.
29. Y. Katoh, T. Hinoki, A. Kohyama, T. Shibayama and H. Takahashi, “Microstructural Stability of SiC/SiC Composites”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.325-332.
30. S. Suyama, T. Nakagawa, N. Tachikawa, Y. Ito, Y. Katoh and A. Kohyama, “Evaluation of Microstructure for SiCf/SiC Composites by Mercury Intrusion Method”, Ceramic Engineering and Science Proceedings, 20 [3](1999) p.p.181-190.
31. R. Yamada, T. Taguchi, J. Nakano and T. Igawa, “Thermal Conductivity of CVI and PIP SiC/SiC Composites”, Ceramic Engineering and Science Proceedings”, 20 [3](1999) p.p.273-280.
32. H. Araki, W. Yang, Y. Shi, S. Sato, T. Nodaa and A. Kohyama, “Bending Properties of CVI SiCf/SiC Composites at Elevated Tempratures”, Ceramic Engineering and Science Proceedings, 20 [4](1999) p.p.371-378.
33. S. Suyama, Y. Itoh, S. Nakagawa, N. Tachikawa, A. Kohyama and Y. Katoh, “Effect of Residual Silicon Phase on Reaction-Sintered Silicon Carbide”, Proc. of the Third IEA International Energy Agency Workshop on SiC/SiC Ceramic Composites for Fusion Structural Applications (1999) p.p.108-112.
34. 柴原正和、芹澤 久, 村川英一、「界面要素を用いたFEMによる溶接高温割れに関する理論的研究 (第一報) —温度依存型界面要素の開発—」、関西造船協会誌、第232号、(1999) p.p.135-144
35. 呉 政奇、芹澤 久, 村川英一、「表面エネルギーに基づいたき裂進展のモデル化と複合材料の界面剥離への応用 (第二報) —動的き裂進展解析への適用—」、関西造船協会誌、 第232号(1999) p.p.145-153
36. 安藤東宙、芹澤 久, 村川英一、「SiC/SiC複合材料のSlow Crack Growthに関する解析」、溶接構造シンポジウム'99講演論文集、(1999) p.p.209-215
37. 江本篤史、呉 政奇, 芹澤 久, 村川英一、「界面要素を用いた弾性板中におけるき裂の動的伝播解析」、溶接構造シンポジウム'99講演論文集 (1999) p.p.373-378
38. K. Okamura, “Status Quo and Future Trend on R & D for High Temperature and High Performance Ceramic Fibers Derived from Polymers”, Adv. Composite Mater., 8 [1](1998) p.p.107-115.
39. A. Kohyama, “A New Project on R&D of Advanced Material Systems for Conversion of Energy: CREST-ACE Program”, Proc. of the 1998 International Symposium on Advanced Energy Technology, (1998) p.p.645-652.
40. Kohyama, “Development of High Performance Composites for Environment-Conscious Energy Applications”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.286-291.
41. 野田哲二、「材料の放射化解析と評価」、プラズマ核融合学会誌、74(1998) p.p.701-706
42. 野田哲二、「高純度SiC複合材料の製造と同位体制御」、原子力学会誌、44(1998) p.p.60-64
43. 香山 晃、「戦略的基礎研究CREST-ACEと核融合炉材料開発戦略の概要」、超高温材料シンポジウム12論文集-新しいエネルギー材料-、(1998) p.p.59-67
44. T. Shibayama, A. Kohyama and H. Takahashi, “Environmental Effects of Microstructural Evolution in SiC/SiC Composites”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.397-400.
45. Y. Katoh, A. Kohyama and T. Hinoki, “Microstructural Evolution of SiC/SiC Composites under Irradiation”, Proceeding of Eighth European Conference on Composites Materials, Vol. 4(1998) p.p.351-358.
46. M. Kotani, A. Kohyama, K. Okamura, T. Inoue and Y. Katoh, “Fabrication of High Performance SiC/SiC Composite by Polymer Impregnation and Pyrolysis Method”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.595-598.
47. Y. Katoh, A. Kohyama, M. Ando, K. Jimbo, T. Sakka, A. Kimura, F. Sano, T. Mizuuchi and T. Obiki, “Multiple Beams ・Material Interaction Research Facility at Kyoto University and Prospective Application to Advanced Energy Materials Study”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.428-433.
48. T. Hinoki, A. Kohyama, S. Sato and T. Noda, “Effect of Fiber Coating on Interfacial Shear Strength on SiC/SiC by Nano-indentation Technique”, Journal of Nuclear Materials, 258-263(1998) p.p.1567-1571.
49. A. Kohyama, A.Hasegawa, T.Noda and Y.Katoh, “Present Status of SiCf/SiC Composites as Low-Activation Structural Materials of Fusion Reactor in Japan”, Proc. of 17th IAEA Fusion Energy Conferense (1998) p.p.297.
50. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “High Temperature Fiber Tensile Tests with A Long Gauge Length and Oxidation Tests of Hi-Nicalon Type S”, Extended Abstracts of the First Asian-Australasian Conference on Composite Materials, Vol. II(1998) p.p.517-1-517-4.
51. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “High-Temperature Properties of Newly Developed Advanced SiC Fibers”, High Temperature Ceramic Matrix Composites III, Key Engineering Materials, Vols. 164-165 (1998) p.p.287-290.
52. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “Strength and Oxidation Resistance of Hi-Nicalon type S at 1373 K”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.583-588.
53. H. Serizawa, C. A. Lewinsohn, G. E. Youngblood, R. H. Jones, D. E. Johnston and A. Kohyama, “High Temperature Strength and Oxidation Resistance of Newly Developed SiC Fibers”, Transactions of JWRI, Vol.27 No.1(1998) p.p.57-60.
54. Y. Wen, H. Araki, S. Sato, T. Noda and A. Kohyama, “Bending Properties of CVI SiCf/SiC Composites at Elevated Temprature”, Materials for advance energy systems and fison & fusion engineering (1998) p.p.162-165.
55. Z.Q. Wu, H. Serizawa and H. Murakawa, “New Computer Simulation Method for Evaluation of Crack Growth Using Lennard-Jones Type Potential Function”, Key Engineering Materials, Vol. 166(1998) p.p.25-32.
56. H. Murakawa, H. Serizawa and Z. Q. Wu, “Crack Propagation Analysis Using Interface Element (Report I) -Theoretical Formulation and Potential Fields of Application ?”, Transactions of JWRI, Vol.27 No.2(1998) p.p.67-72.
57. C.A. Lewinsohn, H. Serizawa, D.E. Johnston, G.E. Youngblood, R.H. Jones and A. Kohyama, “High-Temperature Mechanical Properties of Advanced Nicalon Fibers and Their Relationship to Composite Failure”, Advances in Ceramic Composites IV, Ceramic Transactions, Vol. 96(1998) p.p.371-379.
58. T. Noda, J. Nagakawa, “Computational approach to the fusion reactor materials, Computational Materials Design
59. Springer-Verlag”, (1998) p.p.163-193.
60. H. Murakawa, K. Nakacho, N. Abe and H. Serizawa, “Simulation of Fracture Process of Advanced Materials Using Interface Element”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.577-582.
61. R.H. Jones, L. L. Snead, A. Kohyama and P. Fenici, “Recent Advances in the Development of SiC/SiC as a Fusion Structural Material”, Fusion Engineering & Design, Vol. 4(1998) p.p.15-24.
62. N.L. Vaughn, L.L.Snead, R.A.Lowden, A.Kohyama, Y.Katoh, J.L.Baily, J.J.Henry and A.M.Williams, “Fablication of SiC/SiC Composites Using Advanced Fibers”, Fusion Materials Semi-Annual Report, DOE/ER-0313/25(1998) p.p.81-86.
63. C.A. Lewinsohn, M. L. Hamilton, G. E. Youngblood, R. H. Jones, F. A. Garner, S. L. Hecht and A. Kohyama, “Irradiation-enhanced Creep in SiC : Data Summary and Planned Experiments”, Journal of Nuclear Materials,
64. 253(1998) p.p.33-46.
65. M. Narisawa, M. Narisawa, K. Kitano, A. Idesaki, K. Okamura and M. Itoh, “Thermal Oxidation Crosslinking in the Blended Precursors of Organosilicon Polymers Containing polyvinylsilane with Polycarbosilane”, J. Mater. Sci., 33[5](1998) p.p.2663-2666.
66. A. Idesaki, M. Narisawa, K. Okmura, M. Sugimoto, T. Seguchi and M. Itoh, “SiC-Based Fibers Synthesized from Hybrid Polymer of Polycarbosilane and Polyvinylsilane”, Proceedings of the 3rd International Conference on High Temperature Ceramic Matrix Composites (HT-CMC3), (1998) p.p.39-42.
67. T. Noda, M.Fujita and M.Okada, “Transmutation and Induced Activity of W First Wall of Fusion Reactors”, Journal of Nuclear Materials, 258-263(1998) p.p.934-939.
68. M. Ferraris, M.Salvo, C.Isola, M.Appendino Montorsi and A.Kohyama, “Glass-ceramic Joining and Coating of SiC/SiC for Fusion Applicationsz”, Journal of Nuclear Materials, 258-263(1998) p.p.1546-1550.
69. C.A. Lewinsohn, R. H. Jones, M. Singh, T. Shibayama, T. Hinoki, M. Ando, Y. Katoh and A. Kohyama, “Methods for Joining Silicon Carbide Composites for High Temperature Applications”, Fusion Materials Semi-Annual Report, DOE/ER-0313/25, (1998) p.p.87-92.
70. P. Fenici, R.H.Jones, A.Kohyama and L.L.Snead, “Current Status of SiC/SiC Composite R&D”, Journal of Nuclear Materials, 258-263(1998) p.p.215-225.
71. G.E. Youngblood, R.H.Jones, A.Kohyama and L.L.Snead, “Radiation Response of Advanced SiC Fibers”, Journal of Nuclear Materials, 258-263(1998) p.p.1551-1556.
72. G.E. Youngblood, R.H.Jones, A.Kohyama, Y.Katoh, A.Hasegawa, R.Scholz and L.L.Snead, “The HFIR 14J SiC/SiC Composite and SiC Fiber Collaboration”, Proc. of The Fusion Reactor Materials, DOE/ER-0313/24(1998) p.p.115-121.
73. M. Narisawa, S. Oda, T. Iseki, K. Okamura, K. Oka, and T. Dohmaru, “Synthesis of Fibrous Shape Ceramics from Blended Precursors of Organosilicon Polymers Containing Polymethylsilane”, J. Ceram. Soc., 106[2](1998) p.p.220-223.
74. W. Zhang, T. Hinoki, A. Kohyama, T. Noda, T. Muroga and J. Yu, “Crack Initiation and Growth Characteristics in SiC/SiC under Indentation Test”, Journal of Nuclear Materials, 258-263(1998) p.p.1577-1581.
75. W. Zhang, T. Hinoki, Y. Katoh, A. Kohyama , T. Noda, T. Shibayama, “Effect of Fiber Coatings on Crack behaviors in SiC/SiC”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.561-564.
76. W. Zhang, T. Hinoki, Y. Katoh, A. Kohyama and T. Noda, “Effect of Fiber Coating on Crack Initiation and Growth Characteristics in SiC/SiC under Indentation Test”, Proceeding of Eighth European Conference on Composites Materials, Vol. 4(1998) p.p.359-366.
77. H. Araki, T. Noda, “Effect of high temperature heat treatment in vacuum on microstructure and bending properties of SiCf/SiC composites prepared by CVI”, Journal of Nuclear Materials, 258-263(1998) p.p.1540-1545.
78. H. Araki, T. Noda, Y. Wen and A. Kohyama, “Thermal stabilities of SiCf/SiC composites”, Materials for advance energy systems and fison & fusion engineering, (1998) p.p.144-147.
79. K. Okamura, T.Shimoo, I. Tsukada and T. Seguchi, “High-Temperature Properties of Polymer-Derived SiC Fibers
80. Ceramic Transactions, The American Ceramic Society”, 99(1998) p.p.101-108.
81. T. Hinoki, W. Zhang, H. Serizawa, Y. Katoh and A. Kohyama, “Analysis of Interfacial Shear Process of CMC”, Extended Abstracts of the First Asian-Australasian Conference on Composite Materials, Vol. II(1998) p.p.510-1-510-4.
82. T. Hinoki, W. Zhang, Y. Katoh and A. Kohyama, “Roles of Interfacial Microstructure on Interfacial Shear Strength of SiC/SiC”, Proceeding of Eighth European Conference on Composites Materials, Vol. 4(1998) p.p.209-216.
83. T. Hinoki, W. Zhang, Y. Katoh and A. Kohyama, “Interfacial Fracture behavior of SiC/SiC Composites for Fusion Application”, Proceeding of International Symposium on Environment-Conscious Innovative Materials Processing with Advanced Energy Sources (ECOMAP-98), (1998) p.p.571-576.
84. A. Kohyama, Y. Katoh, T. Hinoki and W. Zhang, “Progress in the Development of SiC/SiC Composites for Advanced Energy Systems: CREST-ACE Program”, Proceeding of Eighth European Conference on Composites Materials, Vol. 4 (1998) p.p.15-22.
87. A. Kohyama, Y.Katoh, W.Zang, T.Hinoki and M.Kotani, “R&D of SiC/SiC for Advanced Energy Systems”, Proc. of the 5th Japan-China Symposium on Materials for Advanced Energy Systems and Fission and Fusion Engineering (1998).
88. Kohyama, “Present Status of SiC/SiC R&D in Japan”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.24-38.
89. K. Okamura, “R&D of High Performance SiC Based-Ceramic Fibers for CMC”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.182-184.
90. 野田哲二、「高融点金属の放射化基準の適合性」、ヘリカル型核融合炉材料検討資料集、3(1997) p.p.28-36
91. M. Kotani, A. Kohyama, K. Okamura and T. Inoue, “Preliminary Study of PIP Process with New Silicon Carbide Precursors”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.185-188.
92. T. Hinoki, A.Kohyama, Z.Wen H.Serizawa and S.Sato, “Effects of Interfacial Shear Strength on Mechanical Property of SiC/SiC”, The Science Reports of the Research Institutes Tohoku University, 45(1997) p.p.133-136.
93. T. Shibayama, H, Kayano and A. Kohyama, “Dynamic Fracture Behavior on 2D SiC/SiC Composites”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.74-81.
94. T. Noda, H. Araki, S. Ito, M. Fujita and K. Maki, “Impurities and Evaluation of Induced Activity of SiCf/SiC composites”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.244-254.
95. M. Ferraris, M.A. Montorsi, M. Salvo, C. Isola and A. Kohyama, “Self-Sealing Multilayer Coating for SiC/SiC Composites”, Proc. of The Second IEA/Jupiter Joint International Workshop on SiC/SiC Ceramic Composites for Fusion Applications, (1997) p.p.255-263.
96. T. Noda, S.Ito, “Impurities and evaluation of induced activity of V alloys”, Proc. of IEA-WS on Vanadium Alloy Developmen (1997) p.p.666-676.
97. 野田哲二、荒木、楊、鈴木、「CVI SiCf/SiC複合材料の高温特性」、第2回核融合エネルギー連合講演会、(1997)
研究制度
  • 戦略的基礎研究推進事業、研究領域「環境低負荷型の社会システム」研究代表者 香山 晃(京都大学エネルギー理工学研究所)/科学技術振興事業団
研究報告資料
  • 香山 晃. 環境低負荷型の社会システム 低環境負荷エネルギー用複合機能構造材料の開発. 戦略的基礎研究推進事業 平成10年度 研究年報,1999. p.845 - 850.

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