从高导热、耐高温、环保型、纳米颗粒改性等方面对国内外耐高压绝缘材料的研究现状和进展进行了综述.高导热、耐高温绝缘材料方面国外多家知名公司保持着领先优势,国内虽取得较多的成果,其产品仅适用于中小型高温电机,不能满足高压大电机的使用要求.环保型绝缘材料方面,通过提高绝缘漆中的固体含量和降低粘度,减少有毒溶剂的含量,或用无毒溶剂及水代替,以达到环保要求.生物可降解绝缘材料及环境降解绝缘材料的可行性方面也进行了探索性试验.利用无机纳米粒子改性电气绝缘材料,不但能大幅度提高绝缘材料耐压和耐电晕等方面的性能,还提高了电机的使用寿命.
参考文献
| [1] | 陈楠.大容量空冷汽轮发电机绝缘结构的设计与应用[J].上海大中型电机,2009(01):36-39. |
| [2] | 李耀星.高压电机主绝缘材料的发展现状及"十五"规划设想[J].电工材料,2001(01):13-17. |
| [3] | 赫兟,周键.高导热绝缘材料对降低电机温升的重要作用[J].绝缘材料,2008(04):22-23. |
| [4] | 董阜敏,黄祖洪,周键.国内外高导热主绝缘材料的现状及发展动向[J].电气技术,2009(01):5-8. |
| [5] | 梁茂芝,刘士珍,王世萍,金英兰.新型高导热环氧玻璃粉云母带[J].防爆电机,2007(04):37-39. |
| [6] | 王文进,李鸿岩,姜其斌.高导热绝缘高分子复合材料的研究进展[J].绝缘材料,2008(05):30-33. |
| [7] | Brutsch R;lutz A;Liptak G.New High Voltage Insulation with Increased Thermal Conductivity[A].Chicgo:[Publisher Unknown],1993:323-327. |
| [8] | Allison J.A High Voltage Insulating System with Increased Thermal Conductivity for Turbo Generators[A].Berlin,Germany,2001:1-5. |
| [9] | Miller M L;Emery F T.Thermal Conductivity of High Voltage Stator Coil Groundwall Insulation[A].Chicago:[Publisher Unknown],1997:619-622. |
| [10] | Tari M;Allison J.A High Voltage Insulating System with Increased Thermal Conductivity for Turbo Generators[A].Berlin:[Publisher Unknown],2001:1-5. |
| [11] | 皮如贵,梁智明,漆临生.东方绝缘技术的进步与展望[J].东方电气评论,2009(02):42-48,59. |
| [12] | Tari M;Brütsch R;Yoshida K.HTC Insulation Technology Drives Rapid Progress of Indirect-Cooled Turbo Generator Unit Capacity[A].Vancouver:[Publisher Unknown],2001:1-6. |
| [13] | 左瑞霖,梁国正,常鹏善,杜超云,贾艺红.耐高温无溶剂绝缘浸渍漆的研究进展[J].绝缘材料,2002(02):26-33. |
| [14] | 陈月辉,徐怡恺,吕珏,施倩.新型耐热绝缘材料的研究[J].上海工程技术大学学报,2002(01):26-28. |
| [15] | 俞翔霄,牛平宏.环氧改性耐热聚酯无溶剂漆的研制及应用[J].绝缘材料,2003(06):3-6,10. |
| [16] | 张建华 .有机硅改性不饱和聚酯的制备与应用研究[D].福建师范大学,2007. |
| [17] | 文清云,吕天峰,伍尚华.H级环保型无溶剂浸渍树脂的研制[J].绝缘材料,2009(01):8-10. |
| [18] | 李强军,姜其斌.H级不饱和聚酯亚胺无溶剂浸渍漆的研究[J].绝缘材料,2005(03):11-13,16. |
| [19] | 衷敬和,姜其斌,黎勇,陈红生,李强军,蔡彬芬.C级无溶剂有机硅浸渍漆的应用工艺研究[J].绝缘材料,2008(04):11-13. |
| [20] | 陈宗旻,华玮,叶学淳.C级无溶剂有机硅树脂性能及应用[J].上海大中型电机,2002(03):33-36. |
| [21] | 蔡巨敏,张秀丽,周健.高压电机少胶云母带配套用VPI浸渍树脂的研制[J].绝缘材料,2004(02):7-10. |
| [22] | 吴晓蕾.真空压力浸渍树脂SD1149体系主绝缘的性能考评[J].上海大中型电机,2003(04):17-23. |
| [23] | 陈宗旻.真空压力浸渍树脂现状及发展[J].绝缘材料,2003(03):37-39. |
| [24] | 伍尚华,刘群,尹端龙,张静,梁智明.F级快固化高强度环氧多胶玻璃粉云母带的研制及评定[J].绝缘材料,2005(06):1-6,10. |
| [25] | 曹文,关达生.1000MW超超临界汽轮发电机设计理念[J].上海大中型电机,2009(03):12-13. |
| [26] | 孙瑛,陈京生.环保型、节能型绝缘材料是"十一五"发展重点[J].电气制造,2007(10):22-23. |
| [27] | 李楠,赵华鹏,张金仲.新型自粘电磁线漆的研制[J].现代涂料与涂装,2009(05):1-2. |
| [28] | 楼南寿.特殊电机用漆包线的发展[J].电线电缆,2000(06):3-9. |
| [29] | 徐今能 .高固低粘环保型醇酸树脂及其制备方法[P].中国,101280055,2008-10-08. |
| [30] | 凌春华.F级水溶性聚酯亚胺漆包线漆[J].绝缘材料通讯,1986(02):23-27. |
| [31] | 苏东明.H级不饱和聚酯亚胺无溶剂浸渍树脂的研制[J].化学工程师,2003(02):13-14. |
| [32] | Pravat Kumar Maiti .Development of a Silicone Modified Unsaturated Polyester Varnish for Rated Electrical Insulation Application[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,2005(3):455-468. |
| [33] | 吴丹,虞鑫海,徐永芬.国内外真空压力浸渍树脂的发展现状[J].绝缘材料,2008(05):23-26. |
| [34] | 宋跃强,杜伯学.环保型生物可降解绝缘材料的研究[J].绝缘材料,2007(02):38-40. |
| [35] | Hirai N;Maeno Y;Tamura H et al.Dielectric Properties of Biodegradable Polylactic Acid and Starch Ester[J].IEEE International Conference on Solid Dielectrics,2004,1:87-89. |
| [36] | Takashi Nakagawa;Takuo Nakiri;Ryuichi Hosoya;Yoshiro Tajitsu .Electrical Properties of Biodegradable Polylactic Acid Film[J].IEEE Transactions on Industry Applications,2004(4):1020-1024. |
| [37] | Shinyama K;Fujita S.Study on the Electrical Properties of a Biodegradable Plastic[A].Nagoya:[Publisher Unknown],2003:707-710. |
| [38] | Katsuyoshi Shinyama;Shigetaka Fujita .Mechanical and Dielectric Breakdown Properties of Biodegradable Plastics[J].電気学会論文誌, A. 基礎·材料·共通部門誌,2006(1):31-36. |
| [39] | Erlangen.Siemens Builds Power Transformer with Insulating Liquid Based on Plant Oil[OL].http://w1.siemens.com/press/en/pressrelease/2008/power-transmission/ept200807046.htm,2010-1-1. |
| [40] | Yang Cao;Patricia C. Irwin;Karim Younsi .The Future of Nanodielectrics in the Electrical Power Industry[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,2004(5):797-807. |
| [41] | Reddy, C.C. .Theoretical Maximum Limits on Power-Handling Capacity of HVDC Cables[J].IEEE Transactions on Power Delivery,2009(3):980-987. |
| [42] | T. Tanaka;G. C. Montanari;R. Mulhaupt .Polymer Nanocomposites as Dielectrics and Electrical Insulation-perspectives for Processing Technologies, Material Characterization and Future Applications[J].IEEE transactions on dielectrics and electrical insulation: A publication of the IEEE Dielectrics and Electrical Insulation Society,2004(5):763-784. |
| [43] | 马寒冰 .纳米复合绝缘材料设计、制备及耐变频性研究[D].上海大学,2003. |
| [44] | 徐曼,曹晓珑,俞秉莉.纳米SiO2/环氧树脂复合体系性能研究--(Ⅰ)复合材料的制备及绝缘特性[J].高分子材料科学与工程,2005(01):153-155,159. |
| [45] | 王寿泰.纳米绝缘材料[J].绝缘材料,2001(03):13-17. |
| [46] | Weijun Yin .Dielectric properties of an improved magnet wire for inverter-fed motors[J].IEEE Electrical Insulation Magazine,1997(4):17-23. |
| [47] | Beeckman R J.Studies on Magnet Wire Degradation with Inverter-driven Motors[A].Chicago:[Publisher Unknown],1997:383-387. |
| [48] | 杨欣,施利毅,马寒冰,沈嘉年.纳米复合电磁线绝缘材料制备和表征[J].上海大学学报(自然科学版),2003(06):537-542. |
| [49] | 李强军,姜其斌,李凤,蔡彬芬,谢大荣,刘斌.耐电晕复合绝缘材料的研究[J].化工新型材料,2007(01):50-51. |
| [50] | 任小龙.无机纳米杂化聚酰亚胺薄膜的研究进展[J].绝缘材料,2008(04):28-32. |
| [51] | Lee ES;Lee SM;Cannon WR;Shanefield DJ .Improved dispersion of aluminum nitride particles in epoxy resin by adsorption of two-layer surfactants[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2008(1/3):95-103. |
| [52] | 谢述锋;王岳;王德义 .低温、高导热、电绝缘环氧树脂纳米复合材料制备工艺[P].中国,101423651,2009-05-06. |
| [53] | 付强,胡立江,孙德智.Increase in functional groups for POSS by introducing branched phenylglycidylether[J].哈尔滨工业大学学报(英文版),2004(01):17-22. |
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