为探讨碳化硅(SiC)/低密度聚乙烯(LDPE)复合材料的电导非线性特性,结合扫描电镜观察和X射线衍射分析研究了SiC的掺量、种类、晶型及粒径对SiC/LDPE复合材料直流伏安特性的影响.研究结果表明:SiC掺量增加可导致SiC/LDPE复合材料电导率增大和电导非线性系数发生改变的临界场强值降低;当外施电场强度相等时,在相同的SiC掺量下,纳米α-SiC、绿β-SiC、黑α-SiC复合材料的电导率分别大于微米α-SiC、绿α-SiC、绿α-SiC复合材料的电导率,且前者的电导非线性特性明显优于后者;当黑α-SiC的掺量达到37.5 wt%时,SiC粒径的增大可导致双对数坐标下的电导率与场强关系曲线的拐点向低场强方向移动.
参考文献
| [1] | 党智敏,王海燕,王岚.新型高温高介无机/有机功能复合材料[J].复合材料学报.2005,22(5):9-15.Dang Zhimin,Wang Haiyan,Wang Lan.New inorganic/organic functional composites with high temperature and high dielectric constant[J].Acta Materiae Compositae Sinica,2005,22(5):9-15. |
| [2] | 刘英,曹晓珑,孙淑霞.电缆终端型电场的应力控制材料及结构[J].电线电缆,2005(1):29-33.Liu Ying,Cap Xiaolong,Sun Shuxia.Materials and construction of the stress control device for the electric field of cable termination[J].Electric Wire & Cable,2005(1):29-33. |
| [3] | Auckland D W,Su Wenbin,Varlow B R.Non-linear fillers in electrical insulation[J].IEE Proc-Sci Meas Technol,1997,144(3):127-133. |
| [4] | Tavernier K,Auckland D W,Varlow B R.Improvement in the electrical performance of electrical insulation by non-linear fillers[C]//Processing of International Conference on Conduction and Breakdown in Solid Dielectrics.Vasteras,Sweden:IEEE,1998:533-538. |
| [5] | Carina Onneby,Eva Martensson,Uno Cafvert.Electrical properties of field grading materials influenced by the silicon carbide grain size[C]//Proc of IEEE 7th ICSD.Eindhoven,the Netherlands:IEEE,2001:43-45. |
| [6] | Adohi J P,Guilleermin C,Rain P,Rowe S W.Filler treatment effects on the dielectric properties of a filled epoxy resin[C]//Annual Report Conference on EIDP.Colorado,USA,2004:158-161. |
| [7] | 李振海.高压电机新型防晕材料和防晕结构及应用研究[J].绝缘材料,2004(6):12-15.Li Zhenhai.Applying study of anti-corona structure and materials for HV-machine[J].Insulating Materials,2004(6):12-15. |
| [8] | 杨娟娟,刘英,田霄,曹晓珑.几种用于防晕的非线性电介质的损耗性能比较[J].绝缘材料,2004(3):32-35.Yang Juanjuan,Liu Ying,Tian Xiao,Cap Xiaolong.Comparison of dielectric-loss property of nonlinear anti-corona materials[J].Insulating Materials,2004(3):32-35. |
| [9] | 官瑞磊.高压电缆终端设计的新进展[J].绝缘材料,2006,39(3):53-60.Gong Ruilei.The latest development in the design of HV cable termination[J].Insulating Materials,2006,39(3):53-60. |
| [10] | 李明,尹毅.屠德民.以BaTi03作为填料改善聚乙烯的空间电荷效应[J].西安交通大学学报,2000,34(1):84-103.Li Ming,Yin Yi,Tu Demin.Space charge in polyethylene with BaTiO3 as a filler[J].Journal of Xi'an Jiaotong University,2000,34(1):84-103. |
| [11] | Tavernier K,Varlow B R,Auckland D W,Ugur M.Improvement in electrical insulators by non-linear fillers[J].IEE Proc-Sci Meas Technol,1999,146(2):88-94. |
| [12] | Medalia A I.Electrical conduction in carbon black composites[J].Rubber ChemTech,1986,59(3):432-454. |
| [13] | 周公度.结构和物性(化学原理的应用)[M].北京:高等教育出版社,2003:241-244. |
| [14] | 贾修伟.纳米阻燃材料[M].北京:化学工业出版社,2005:1-11. |
| [15] | 李波,张树人,周晓华,王升,唐斌.复合氧化物纳米粉掺杂BaTiO3基MLCC超细瓷料[J].复合材料学报,2005,22(4):91-95.Li Bo,Zhang Shuren,Zhou Xiaohua,Wang Sheng,Tang Bin.Nanocomposite doped BaTiO3-based ultrafine dielectrics for multilayer ceramic capacitance[J].Acta Materiae Compositae Sinica,2005,22(4):91-95. |
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