研究成果

論　文
[1] Continuous silicon carbide fiber of high tensile strength
S. Yajima, J. Hayashi and M. Omori
CHEMISTRY LETTERS, (1975)931-934.

[2] Synthesis of continuous SiC fibers with high tensile strength
S. Yajima, K. Okamura, J. Hayashi and M. Omori
J. Amer Ceramic Society 59 No 7-8,(1976)324-327.

[3] Development of high tensile strength silicon carbide fibre using an organosilicon polymer precursor
S. Yajima, Y. Hasegawa, K. Okamura and T. Matsuzawa
Nature 273 No 5663 (1978) 525-527.

[4] Synthesis of a polytitanocarbosilane and its conversion into inorganic compounds
S.Yajima, T.Iwai, T.Yamamura、K.Okamura and Y. Hasegawa
J. Mater.Sci., 16（1981）1349-1355.

[5] Special Heat-Resisting Materials from Organometallic Polymers
S. Yajima
Am. Ceram. Soc. Bull., 62 (1983) No.8, 893-903.

[6] Silicon Carbide Fibres
S.Yajima
HandBook of Composites, Vol..1, Chapter VI “Strong Fibers”
Edited by W,Watt an B.V.Perov.
1985, 201-237, Elsevier Science Publishers B. V.

[7] γ-ray Irradiation Curing on Polycarbosilane Fibres as the Precursor of SiC Fibers
K.Okamura, T.Matsuzawa and Y.Hasegawa
J.Mater.Sci.Letters, Vol.4, No.1, (1985) 55-57.

[8] 炭化ケイ素繊維前駆体としてのポリカルボシランの放射線架橋におけるラジカルの挙動
佐藤光彦、山村武民, 瀬口忠男, 岡村清人
日本化学会誌,1990,(5),1990(554-556).

[9] Characteristics of a Ceramic Matrix　Composite Using a Continuous Si-Ti-C-O Fiber
T.Yamamura, T.Ishikawa, M.Sato, M.Shibuya, H.Otsubo, T.Nagasawa and K. Okamura
Ceramic. Eng. Sci. Proc., 11, (1990)1648-1660.　

[10] Application of Radiation Curing in the Preparation of Polycarbosilane-Derived
SiC Fibers
K. Okamura and T.Seguchi
Journal of Inorganic and Organometallic Polymers, 2(1), (1992)171-179.

[11] Nanostructure Analysis of Pyrolyzing Conversion from Organic Polymer
Precursors to Si-C-(Ti)-O Inorganic Fibers
K. Suzuki and T. Kamiyama
Supramolecular Science, 5 (1998) 223-226.

[12] A Small-Angle Scattering Study of the Ceramization Process from Organic
Polymer Precursors
T. Kamiyama, M. Sasaki and K. Suzuki
J. Appl. Cryst. , 33 (2000) 447-450.

[13] Medium-Range Structural Change in the Ceramization from Polymer Precursors
T. Kamiyama, M. Sasaki, T. Otomo,M. Shibuya. K. Kumagai and K. Suzuki
J. Non-Crystalline Solids, 293-295 (2001) 607-614.

[14] Characterization of the Medium-Range Structure of Si-Al-C-O, Si-Zr-C-O and
Si-Al-C Tyranno Fibers by Small Angle X-ray Scattering
K. Suzuki, K. Kumagawa, T. Kamiyama and M. Shibuya
J. Materials Science, 37 (2002) 949-953.

[15] The Structure and Properties of Amorphous Metals and Ceramics
K. Suzuki
J. Fac. Sci., U.A.E. Univ., 12A (2002) 77-95.

[16] Nano-Scale Composite Structure of Polymer-Route Si-C-M-O Fibers
Characterized by Small-Angle X-Ray Scattering (Invited)
K. Suzuki, T. Kamiyama and M. Shibuya
Key Engineering Materials, 247 (2003) 13-18.

[17] SiC-Based Ceramic Fibers Prepared via Organic-to-Inorganic Conversion Process
K. Okamura, T. Shimoo, K. Suzuya and K. Suzuki
J. Ceramic Soc. Japan, 114 (2006) 445-454.

[18] Atomic-Scale Structure of Polymer Route Si-C-O Fibers Observed by Synchrotron
Radiation X-Ray Diffraction
K. Okamura, K. Suzuya, S. Kohara, H. Ichikawa and K. Suzuki
Key Engineering Materials, 352 (2007) 65-68.

[19] Si-C-(M)-O系繊維不織布マットによるガス燃焼加熱炉の省エネルギー化ならびに高性能化
鈴木謙爾、伊藤清隆、田渕松実、澁谷昌樹
工業加熱、44 (2007) 17-25.

[20] Poly[(Silylyne)Ethynylene] and Poly[(Silylene)Ethynylene] : New Precursors for
the Efficient Synthesis of Silicon Carbide
S. Kyushin, H. Shiraiwa, M. Kubota, K. Negishi, K. Okamura and K. Suzuki
Advanced in Polymer Derived Ceramics and Composites (Edited by P. Colombo
and R. Raj, Volume Editor M. Singh), Ceramic Transactions, 213 (2010) 3-6.

[21] Intermediate-Range Order in Polymer-Route Si-C-O Fibers by High-Energy
X-Ray Diffraction and Reverse Monte Calro Modeling
K. Suzuya, S. Kohara, K. Okamura, H. Ichikawa and K. Suzuki
Advanced in Polymer Derived Ceramics and Composites (Edited by P. Colombo
and R. Raj, Volume Editor M. Singh), Ceramic Transactions, 213 (2010) 33-38.

[22] Economy of Fuel Gas in a Combustion Furnace by Means of Si-C-Zr-O Tyranno-
Fiber Mat Sheets Converting High Temperature Gas Enthalpy into Radiant Rays
K. Suzuki, K. Ito, M. Tabuchi and M. Shibuya
Advanced in Polymer Derived Ceramics and Composites (Edited by P. Colombo
and R. Raj, Volume Editor M. Singh), Ceramic Transactions, 213 (2010)
127-135.

[23] The Atomic Scale Structure of Polymer-Derived SixC1-x Amorphous Ceramics by
High-Energy X-Ray Diffraction and Reverse Monte Calro Modeling
K. Suzuya,S. Kohara, K. Okamura, H. Ichikawa and K. Suzuki
Proc. 7th International Conference on High Temperature Ceramic Matrix
Composites (HT-CMC 7), (Edited by W. Krenkel and J. Lamon, September
20-22, 2010, Bayreuth Germany), p.719-723.

[24] Studies on the Detailed Structure of Poly(dimethylsilylene)
S. Kyushin, K. Ichikawa, Yu. Koyama, H. Shirakawa, H. Ichikawa, K.Okamura
and K. Suzuki
Organometallics, 33 (2014) 6298-6304.

[25] Oxygen-Free Poly(dimethylsilylene)
S. Kyushin, K. Mizoguchi, T. Tanaka, T. Yamanobe and K. Hayashi
Organometallics, 39(2020) 4651-4656.

特　許

[1]　「ポリ[(シリリン）エチニレン]およびポリ[(シリレン)エチニレン]の合成
　　　ならびにそれらを前駆体とする炭化ケイ素の作製」
　　　特願２００９－９９３６３、平成２１年３月２４日出願

[2]　「物品の省エネルギー加熱方法及び加熱炉」
　　　特許第４３２５７５８号、平成２１年６月１９日登録

実用新案

[1]　「高温ガス顕熱回収マット」
　　　登録第３１３６８７３号、平成１９年１０月１７日登録