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介绍了不同类型耐火绝缘层材料的组成、材料选择、性能特点及研究概况.分析认为以云母带和氧化镁为耐火绝层缘材料制备耐火电缆在生产,安装施工、成本等方面存在明显不足,而快速陶瓷化耐火绝缘层材料在生产、安装施工、成本等方面优点突出.进一步指出,应在材料选择、新产品开发等方面加强对快速陶瓷化耐火绝缘层的研究.

参考文献

[1] GA 306.2-2007.阻燃及耐火电缆塑料绝缘阻燃及耐火电缆分级和要求第2部分:耐火电缆[S].北京:中国标准出版社,2007.
[2] 王玮;谢万春.耐火电缆中云母带的应用和选择[J].电线电缆,1999(03):6.
[3] 徐应麟.耐火云母带在电线电缆中的应用[J].电线电缆,2001(05):3-5,9.
[4] 李万新.浅析原材料对云母带质量的影响[J].中国非金属矿工业导刊,2001(06):12-13.
[5] 黄鸿.云母纸的生产工艺及应用[J].中华纸业,2004(11):29-31.
[6] 陈淑芳,周亶,黄祖洪,谢建康.有机硅粘结剂在耐火云母带中的应用研究[J].绝缘材料,2003(01):11-14.
[7] 王志闽;张安亿.电线电缆用NHP耐火云母带的研制[J].电线电缆,1994(04):20.
[8] 高群,王国建,谢晶.有机硅粘合剂在耐火云母带上的应用[J].中国胶粘剂,2003(05):56-60.
[9] Bertsch X;Dubois A.New mica paper insulation for fire resistant cables[A].New York:Institute of Electrical and Electronics Engineers,1985:115.
[10] Palmer C D;Allen D B;Kopish W J.Light weight polyi mide film/mica marine cable[A].New Jersey:US Army,1985:250.
[11] Andres W H.Mica paper insulations for conductors and cables[A].New York:Institute of Electrical and Electronics Engineers,1977:225.
[12] Kaneoya R;Kondo S;Shinozaki K .Design of high reliability mica capacitors for submarine cable repeaters[J].Electron Commun Jpn (English Translation of Denshi Tsushin Gakkai Zasshi),1974,57(12):93.
[13] Yamamoto T;Nakamoto S;Yamamoto M et al.Mica loaded paper for EHV power cable[J].IEEE-Trans Power Apparatus Systems,1969,88(06):890.
[14] Milliken B C;Armstrong R S.Cable design and materials for high reliability,severe duty and circuit integrity[A].New Jersey:US Army,1978:321.
[15] 曹积芸.耐火电线电缆介绍[J].电气应用,1989(02):44.
[16] 张孝天;刘桂云;郑晓泉.电缆用大鳞片云母纸耐火云母带的研究[J].绝缘材料,1991(03):1.
[17] 陆宪良;展红卫;刘维民 .有机硅胶粘剂在耐火云母带中的应用[J].华东理工大学学报,1997,23(04):472.
[18] 金英兰 .应用于三峡水轮电机机组上的粉云母带的研制[D].哈尔滨理工大学,2007.
[19] 郑芸 .环氧真空压力浸渍绝缘树脂的制备与性能[D].上海交通大学,2008.
[20] 金小林 .高压电机用云母带胶粘剂的性能研究[D].上海交通大学,2008.
[21] 曾黎明,田晓伟.高压电机绝缘云母带用胶粘剂的发展现状及趋势[J].化工新型材料,2004(12):1-4.
[22] 黄祖洪,周健.高导热多胶粉云母带研制过程中的几个问题[J].绝缘材料,2003(03):10-12.
[23] 威尔逊 I O;孙兆谓.耐高温矿物绝缘电缆用氧化镁绝缘[J].电线电缆,1983(02):25.
[24] 庄猛,刘冠军.加热电缆的种类及应用[J].电线电缆,2002(05):14-16.
[25] 张初阳.耐火电缆的分级和特性及选用原则[J].电线电缆,2003(01):3-5.
[26] GB/T 13033.1-2007.额定电压750V及以下矿物绝缘电缆及终端第1部分:电缆[S].北京:中国标准出版社,2007.
[27] 唐崇健.矿物绝缘电缆生产线的兴建与改造[J].电线电缆,2003(06):15-18.
[28] 邢本仁.矿物绝缘电缆的特点及其用途[J].电线电缆,1985(01):1.
[29] Christian U Grosse.Advances in construction materials 2007[M].Stuttgart:Springer Berlin Heidelberg,2007
[30] Flambard X;Bourbigot S;Ferreira M et al.Wool/para-aramid fibers blended in spun yarns as heat and fire resistant fabrics[J].Polymer Degradation and Stability,2002,77(02):279.
[31] 唐崇健,蔡如明,陈大勇.矿物绝缘电缆的生产工艺[J].电线电缆,2006(05):12-18.
[32] 罗峥嵘 .防火电缆纵包焊接测控系统的研制[D].西安理工大学,2008.
[33] 许文堂.矿物绝缘电缆的应用[J].山西建筑,2008(32):187-188.
[34] 梁波.矿物绝缘电缆施工技术[J].山西建筑,2008(33):189-190.
[35] Mills E .Mineral insulated metal sheathed cables[J].Wire Industry,1976,43(509):409.
[36] Boeck H;Suleiman M .Investigations of mineral insulated cables exposed to high temperature and intense gamma radiation[J].Nuclear Instruments and Methods in Physics Research,1978,148(01):43.
[37] Geyer F .Minera-insulated cables[J].Siemens Review,1975,42(09):409.
[38] Thomson A;Fenton A W.High-integrity,small-diameter mineral-insulated thermocouples[J].Institute of Physics Conference Series,1975(26):195.
[39] Vermeeren L;Weber M .Induced voltages and currents in copper and stainless steel core mineral insulated cables due to radiation and thermal gradients[J].Fusion Engineering and Design,2007,82(5-14):1185.
[40] Thomson K W;Shanks R A;Genovese A .New ceramifying polymer materials for passive fire protection applications[J].Journal of Astm International,2007,4(07):1.
[41] Hanu LG;Simon GP;Cheng YB .Thermal stability and flammability of silicone polymer composites[J].Polymer Degradation and Stability,2006(6):1373-1379.
[42] L.G. Hanu;G.P. Simon;Y.B. Cheng .Preferential orientation of muscovite In ceramifiable silicone composites[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):180-187.
[43] Hanu L G;Simon O P;Mansouri J et al.Development of polymer-ceramic composites for improved fire resistance[J].Journal of Materials Processing Technology,2004,153 154(1-3):401.
[44] Henrist C;Rulmont A;Cloots R et al.Toward the understanding of the thermal degradation of commercially available fire-resistant cable[J].Materials Letters,2000,46(2-3):160.
[45] Claerk W T L M A .Cable including non-flamable micro-particles:[P].US,7244893,2007 07-17.
[46] J. Mansouri;R.P. Burford;Y.B. Cheng .Pyrolysis behaviour of silicone-based ceramifying composites[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(1/2):7-14.
[47] Anon .A ceramifying plastic which doesn't burn[J].Engineers Australia,2004,76(07):43.
[48] Thomson K W;Rodrigo P D;Preston C M.In the firing line:Geramifying polymers enhance strength of intu mescent coatings[J].European Coatings Journal,2006(12):34.
[49] Mansouri J;Burford RP;Cheng YB;Hanu L .Formation of strong ceramified ash from silicone-based compositions[J].Journal of Materials Science,2005(21):5741-5749.
[50] Mansouri J;Wood CA;Roberts K;Cheng YB;Burford RP .Investigation of the ceramifying process of modified silicone-silicate compositions[J].Journal of Materials Science,2007(15):6046-6055.
[51] 皮纳奇 P L;佩鲁佐蒂 F;蒂雷利 D .耐火电缆:[P].中国,CN1625786,2005-06-08.
[52] 李季.新的耐火电缆绝缘材料[J].工程质量,2006(02):57.
[53] 塑料和橡胶新陶瓷阻燃技术[J].聚合物与助剂,2007(02):66.
[54] 梁喆,彭小弟,赵源.新型陶瓷化耐火硅橡胶的探索性研究[J].世界橡胶工业,2008(01):19-21.
[55] 彭小弟,夏亚芳,刘军.一种新型陶瓷化高分子复合耐火硅橡胶耐火电缆的研制[J].电线电缆,2007(04):28-29.
[56] 梁喆,赵源,彭小弟.陶瓷化耐火硅橡胶的应用进展[J].有机硅材料,2007(04):234-235.
[57] 韩君,吴伯麟.在燃烧条件下塑料中可陶瓷化掺入物的探索[J].塑料工业,2008(z1):167-169.
[58] 苏柳梅,崔昌华,尚用甲,郑峰.可瓷化高分子复合防火材料的研究进展[J].粉末冶金材料科学与工程,2009(05):290-294.
[59] 王庭慰;张其土;邵海彬 .一种快速陶瓷化电缆料及其治本方法:[P].中国,CN404189,2009-04-08.
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