以酚醛树脂(PF)为基体原料,以含B、Si的陶瓷为改性填料制备高温粘结剂并对石墨材料进行粘接.结果表明,高温粘结剂对石墨材料具有较为理想的粘接性能,陶瓷填料有效改善了高温处理后接头的体积收缩现象,并在粘接界面处形成了较强的化学键合力.
参考文献
[1] | Fitzer E .The future of carbon-carbon composites[J].CARBON,1984,25(02):163-190. |
[2] | KRAVETSKII G A;Anikin L T;Demin A V.ESTEC The fields of application of high-temperature adhesives[J].Stuttgart Germany,1995:197-200. |
[3] | Kakegawa H;Otani S;Maeda Y.Adhesion structure of graphite using COPNA resins[A].,1987:231-232. |
[4] | Kravetskii G A;Anikin L T;Demin A V.High-temperature bonding of parts made of carbon and carbon-ceramics materials[A].,1995:798-799. |
[5] | 关常参;李秀兰 .石墨密封滑片(PPS)胶粘剂[J].化学与黏合,1991,0(04):197-202. |
[6] | Anikin L T;Kravetskii G A;Kuzina O A et al.Heat-resistant adhesive for joining of carbon materials[J].Plaste Kautsh,1992,39(02):54-56. |
[7] | 王继刚,郭全贵,刘朗,宋进仁.硅改性酚醛树脂高温粘结部件的粘接强度及导电性能[J].材料工程,2000(08):15-17. |
[8] | 王继刚,郭全贵,刘朗,宋进仁,翟更太.B4C改性酚醛树脂对石墨材料高温粘接性能的影响[J].耐火材料,2001(02):72-75. |
[9] | 王继刚,郭全贵,刘朗,宋进仁.B4C在石墨高温粘接过程中的组成和结构变化及改性机理[J].新型炭材料,2000(02):16-21. |
[10] | Ichitaro Ogana et al.Preparation of carbon-ceramic composite materials by use of coke(part 4)-oxidation resistance of C-SiC-B4C composite in air[J].Journal of the Ceramic Society of Japan,1986,94(04):409-414. |
[11] | 余叔庸.高温胶的研究[J].粘接,1989(06):1. |
[12] | 王继刚,郭全贵,刘朗,宋进仁.白炭黑、B4C改性酚醛树脂粘接石墨高温性能研究[J].材料工程,2001(09):14-17. |
[13] | 王继刚,郭全贵,刘朗,宋进仁.白炭黑、B4C改性酚醛树脂热解过程的红外分析[J].材料科学与工程,2000(03):73-76,69. |
[14] | Konijnendijk W L;Stevels J M;In: Pye L D.Borate Glasses[M].New York:Plenum Press,1978:259. |
[15] | Buchanan FJ.;Little JA. .PARTICULATE-CONTAINING GLASS SEALANTS FOR CARBON-CARBON COMPOSITES[J].Carbon: An International Journal Sponsored by the American Carbon Society,1995(4):491-497. |
[16] | Piquero T.;Vincent C.;Bouix J.;Vincent H. .INFLUENCE OF CARBIDE COATINGS ON THE OXIDATION BEHAVIOR OF CARBON FIBERS[J].Carbon: An International Journal Sponsored by the American Carbon Society,1995(4):455-467. |
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