高机械强度多胶粉云母带(Ⅰ)——常规性能研究
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摘要
采用不同于桐油酸酐胶黏剂且具有较高热变形温度的黏合剂制备了JF5440-1G高机械强度多胶粉云母带,对该云母带的常规性能进行了研究。结果表明,该云母带固化后在155℃下的弯曲强度不低于100MPa,在50~120℃其导热系数为0.31~0.32W/(m·K),各项性能均达到IEC60371-3-6技术指标要求。
A JF5440-1G high mechanical strength resin-rich mica tape was prepared using an epoxy adhesive which had high heat distortion temperature and was different from tung oil-bismaleimide-maleic anhydride, and its basic conventional properties were investigated. The results show that the flexural strength at 155 ℃ of the cured mica laminate is no less than 100MPa, the thermal conductivity is between 0.31W/(m·K) and 0.32W/(m·K) from 50 ℃ to 120 ℃, and various properties can meet the technical requirements of IEC 60371-3-6.
A JF5440-1G high mechanical strength resin-rich mica tape was prepared using an epoxy adhesive which had high heat distortion temperature and was different from tung oil-bismaleimide-maleic anhydride, and its basic conventional properties were investigated. The results show that the flexural strength at 155 ℃ of the cured mica laminate is no less than 100MPa, the thermal conductivity is between 0.31W/(m·K) and 0.32W/(m·K) from 50 ℃ to 120 ℃, and various properties can meet the technical requirements of IEC 60371-3-6.
引文
[1]袁晓红,王玉田.VPI与模压的发电机定子线棒之性价比[J].大电机技术,2011(1):37-38,64.
[2]付新星,饶保林,韦衍乐,等.多胶模压线棒与少胶VPI线棒的冷热循环对比试验[J].大电机技术,2012(6):17-20.
[3]王洛礼,张旭玲,胡典明,等.耐热增韧环氧树脂固化剂—马来酰亚胺桐油酸酐[J].绝缘材料通讯,1980(S1):31-35.
[4]张旭玲,彭先声,张世村,等.新型的F级云母带——Ⅱ型桐马环氧粉云母带[J].绝缘材料通讯,1988,21(1):21-22.
[5]陈复,陈益川.新型F级环氧一辛酸锌粉云母绝缘[J].绝缘材料通讯,1981,14(5):17-25.
[6]唐传林,饶保林,费敏明,等.多胶粉云母带胶黏剂的结构与性能分析[J].哈尔滨电工学院学报,1990,13(3):270-278..
[7]皮如贵,梁智明,漆临生.主绝缘材料动态力学性能及蠕变性能研究[J].东方电机,2003(2):127-131.
[8]GB/T 5019.8—2009,以云母为基的绝缘材料第8部分:玻璃布补强B阶环氧树脂粘合云母带[S].
[9]IEC 60371-3-6:1992(Amendment1:2006),Specification for Insulating Materials based on Mica-Part 3:Specifications for Individual Materials-Sheet 6:Glass-backed Mica Paper with a B-stage Epoxy Resin Binder[S].
[10]浦顺兴.最近国内外大电机定子线圈主绝缘的发展[J].绝缘材料通讯,1996,29(6):5-11.
[11]陈淑芳,译.ISOTENAX_N绝缘[J].绝缘材料通讯,1981,14(3):50-54.
[12]王良昭.大型高压发电机定子线圈用多胶粉云母带研制工作中的几个问题[J].绝缘材料通讯,1987,20(4):1-4.
[13]白小庆,王良昭,孙安根,等.高强度F级多胶粉云毋带的研制[J].绝缘材料通讯,1993,26(6):14-17.
[14]伍尚华,刘群,尹端龙,等.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,2005,38(6):1-6,10.
[15]金英兰.快速固化云母带[J].绝缘材料,2007,40(4):1-8.
[16]张银川,惠会侠,暴润萍.新型高效节能F级多胶粉云母带的特点、应用及展望[C]//第十届绝缘材料与绝缘技术学术会议论文集,2008:268-278.
[17]付新星,饶保林,韦衍乐,等.主绝缘中可挥发物对多胶模压线棒耐热性的影响[J].大电机技术,2012(3):21-27.
[18]田华杰,饶保林,祝晚华.大型空冷高压发电机主绝缘的导热系数与黏合剂种类、胶含量的关系[J].绝缘材料,2011,44(2):52-54.
[2]付新星,饶保林,韦衍乐,等.多胶模压线棒与少胶VPI线棒的冷热循环对比试验[J].大电机技术,2012(6):17-20.
[3]王洛礼,张旭玲,胡典明,等.耐热增韧环氧树脂固化剂—马来酰亚胺桐油酸酐[J].绝缘材料通讯,1980(S1):31-35.
[4]张旭玲,彭先声,张世村,等.新型的F级云母带——Ⅱ型桐马环氧粉云母带[J].绝缘材料通讯,1988,21(1):21-22.
[5]陈复,陈益川.新型F级环氧一辛酸锌粉云母绝缘[J].绝缘材料通讯,1981,14(5):17-25.
[6]唐传林,饶保林,费敏明,等.多胶粉云母带胶黏剂的结构与性能分析[J].哈尔滨电工学院学报,1990,13(3):270-278..
[7]皮如贵,梁智明,漆临生.主绝缘材料动态力学性能及蠕变性能研究[J].东方电机,2003(2):127-131.
[8]GB/T 5019.8—2009,以云母为基的绝缘材料第8部分:玻璃布补强B阶环氧树脂粘合云母带[S].
[9]IEC 60371-3-6:1992(Amendment1:2006),Specification for Insulating Materials based on Mica-Part 3:Specifications for Individual Materials-Sheet 6:Glass-backed Mica Paper with a B-stage Epoxy Resin Binder[S].
[10]浦顺兴.最近国内外大电机定子线圈主绝缘的发展[J].绝缘材料通讯,1996,29(6):5-11.
[11]陈淑芳,译.ISOTENAX_N绝缘[J].绝缘材料通讯,1981,14(3):50-54.
[12]王良昭.大型高压发电机定子线圈用多胶粉云母带研制工作中的几个问题[J].绝缘材料通讯,1987,20(4):1-4.
[13]白小庆,王良昭,孙安根,等.高强度F级多胶粉云毋带的研制[J].绝缘材料通讯,1993,26(6):14-17.
[14]伍尚华,刘群,尹端龙,等.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,2005,38(6):1-6,10.
[15]金英兰.快速固化云母带[J].绝缘材料,2007,40(4):1-8.
[16]张银川,惠会侠,暴润萍.新型高效节能F级多胶粉云母带的特点、应用及展望[C]//第十届绝缘材料与绝缘技术学术会议论文集,2008:268-278.
[17]付新星,饶保林,韦衍乐,等.主绝缘中可挥发物对多胶模压线棒耐热性的影响[J].大电机技术,2012(3):21-27.
[18]田华杰,饶保林,祝晚华.大型空冷高压发电机主绝缘的导热系数与黏合剂种类、胶含量的关系[J].绝缘材料,2011,44(2):52-54.
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