Physicomechanical properties of refractory Al2O3–Si3N4–C materials with ACPC

A study has been made on the effects of the amount of silicon nitride and graphite on the physicomechanical properties of Al 2 O 3 –Si 3 N 4 –C composites for lining purposes. Adding 2.5–5.0 wt.% silicon nitride and 0.5 wt.% reactive alumina improves the properties, raises their apparent density, an...

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Published in	Refractories and industrial ceramics Vol. 50; no. 5; pp. 387 - 390
Main Authors	Angolenko, L. A., Semchenko, G. D., Starolat, E. E., Savina, S. A., Kushchenko, M. A., Tishchenko, S. V., Povshuk, V. V.
Format	Journal Article
Language	English
Published	Boston Springer US 01.09.2009 Springer Nature B.V
Subjects	Ceramics Ceramics industry Characterization and Evaluation of Materials Chemistry and Materials Science Composites Glass Materials Science Natural Materials Silicon nitride reactive alumina refractory mass silicon nitride graphite aluminum-chromium phosphate cement
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Abstract	A study has been made on the effects of the amount of silicon nitride and graphite on the physicomechanical properties of Al 2 O 3 –Si 3 N 4 –C composites for lining purposes. Adding 2.5–5.0 wt.% silicon nitride and 0.5 wt.% reactive alumina improves the properties, raises their apparent density, and increases the mechanical strength, while reducing the open porosity. Optimized compositions have been determined for refractory materials of Al 2 O 3 –Si 3 N 4 –C composition, and it has been found that to attain the higher values of physicomechanical properties the amount of graphite should constitute 5–10 wt.%.
AbstractList	A study has been made on the effects of the amount of silicon nitride and graphite on the physicomechanical properties of Al^sub 2^O^sub 3^-Si^sub 3^N^sub 4^-C composites for lining purposes. Adding 2.5-5.0 wt.% silicon nitride and 0.5 wt.% reactive alumina improves the properties, raises their apparent density, and increases the mechanical strength, while reducing the open porosity. Optimized compositions have been determined for refractory materials of Al^sub 2^O^sub 3^-Si^sub 3^N^sub 4^-C composition, and it has been found that to attain the higher values of physicomechanical properties the amount of graphite should constitute 5-10 wt.%.[PUBLICATION ABSTRACT] A study has been made on the effects of the amount of silicon nitride and graphite on the physicomechanical properties of Al 2 O 3 –Si 3 N 4 –C composites for lining purposes. Adding 2.5–5.0 wt.% silicon nitride and 0.5 wt.% reactive alumina improves the properties, raises their apparent density, and increases the mechanical strength, while reducing the open porosity. Optimized compositions have been determined for refractory materials of Al 2 O 3 –Si 3 N 4 –C composition, and it has been found that to attain the higher values of physicomechanical properties the amount of graphite should constitute 5–10 wt.%.
Author	Semchenko, G. D. Tishchenko, S. V. Kushchenko, M. A. Starolat, E. E. Angolenko, L. A. Savina, S. A. Povshuk, V. V.
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References	Yamaguchi Akira, Takahashi Hirokuni, Takanaga Shigeyuki, et al., Patent 9295874 Japan, C 04 B 35 / 66, Prepared Unshaped Refractory Containing Aluminum Oxycarbide, Kyushu Refractories, No. JP19960130734, submitted 26.04.96, published 18.11.97. Nakao Atsushi, Taira Hatsuo, and Matsui Takeshi, Patent 6287053 Japan, C 04 B 35 / 00, C 04 B 35 / 00, Carbon-Containing Refractory Material, Nippon Steel Corp., No. JP19930095107, submitted 31.03.93, published 11.10.94. Goto Kiyoshi, Ishii Akio, Sakamoto Hiroshi, Saito Masao, et al., Patent 6064962 Japan, C 04 B 35 / 00, F 27 D 1 / 00, C 21 C 5 / 44, Refractory Lining for Furnace, Nippon Steel Corp., No. JP19920244026, submitted 21.08.92, published 08.03.94. V. V. Martynenko and P. P. Krivoruchko, “Eighth World Congress on Refractories UNITECR’2003,” Novye Ogneupory, No. 6, 49–62 (2004). V. G. Ovsyannikov, A. N. Nikiforov, L. B. Novoselova, et al., “Experience with making and using anhydrous refractory masses at Magnitogorsk Metallurgical Corporation Ltd,” Novye Ogneupory, No. 2, 18–20 (2007). Goto Kiyoshi, Ishii Akio, Sakamoto Hiroshi, et al., Patent 6064962 Japan, C 04 B 35 / 00, F 27 D 1 / 00, C 21 C 5 / 44, Refractory Lining for Furnace, Nippon Steel Corp., No. JP19920244026, submitted 21.08.92, published 08.03.94. Yamaguchi Akira, Chiyou Shiyoui, Takanashi Hirokuni, et al., Patent 9295857 Japan, C 04 B 35 / 00, C 04 B 35 / 043, C 04 B 35 / 103, Carbon-Containing Brick Containing Aluminum Oxycarbide, Kyushu Refractories, No. JP19960130733, submitted 26.04.96, published 18.11.97. 9220_CR4 9220_CR3 9220_CR6 9220_CR5 9220_CR2 9220_CR1 9220_CR7
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Title	Physicomechanical properties of refractory Al2O3–Si3N4–C materials with ACPC
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