| [1] | 何金良,曾嵘. 电力系统接地技术 [M]. 北京:科学出版社,2007:93. |
| [2] | 中国电力企业联合会. 交流电气装置的接地设计规范:GB/T 50065—2014 [S]. 北京:中国计划出版社,2014. China Electricity Council. Code for design of AC electrical installations earthing: GB/T 50065—2014 [S]. Beijing: China Plan Press,2014. |
| [3] | 徐华,文习山,李中建,等. 大型变电站钢材和铜材接地网的性能比较 [J]. 高电压技术,2004,30(7):18-19. XU H,WEN X S,LI Z J,et al. Performance comparison of copper and steel material grounding grids of large substation [J]. High Voltage Engineering,2004,30(7):18-19. |
| [4] | 张波,蒋愉宽,杨建军,等. 接地材料对大型水电站接地阻抗的影响 [J]. 高电压技术,2013,39(4):964-969. ZHANG B,JIANG Y K,YANG J J,et al. Influence of the ground material on the ground impedance of large-scale hydropower plant [J]. High Voltage Engineering,2013,39(4):964-969. |
| [5] | IEEE. Standard for grounding and bonding equipment: UL 467 [S]. [S.n.]:[s.l.], 1996. |
| [6] | BS Institution.Code of practice for earthing: BS 7430-1998 [S]. [S.n.]:[s.l.], 1998. |
| [7] | IEEE.IEEE guide for safety of AC substation grouding: IEEE Std.80-2000 [S]. [S.n.]:[s.l.], 2000. |
| [8] | 李宝绵,李兴刚,许光明,等. 铜/钢复合材料的研究机应用 [J]. 材料导报,2002,16(2):22-25. LI B M,LI X G,XU G M,et al. Study and application of Cu/Steel clad metal [J]. Materials Review,2002,16(2):22-25. |
| [9] | 王庆娟,杜忠泽,王海波. 铜包钢生产工艺的特点及现状 [J]. 电线电缆,2002(4):15-17. WANG Q J,DU Z Z,WANG H B. Characteristics and technical status of the manufachuring process for copper-clad steel wire [J]. Electic Wire & Cable,2002(4):15-17. |
| [10] | 贺飞,刘利梅,钟云,等. 铜包钢线材及其生产工艺 [J]. 表面技术,2007,36(5):78-80. HE F,LIU L M,ZHONG Y,et al. Copper-clad steel and its producing technology [J]. Surface Technology,2007,36(5):78-80. |
| [11] | 马光,韩钰,聂京凯,等. 电气工程接地用铜覆钢腐蚀性能研究 [C]. // 第十一届电站焊接学术讨论会,济南:[s.n.],2010:130-135. MA G,HAN Y,NIE J K,et al. Study of the corrosion resistance of copper-clad steel in electrical grounding [C]//The 10th Power Plant Welding Workshop,Jinan,China:[s.n.],2010:130-135. |
| [12] | 詹涛,孙建新,高义斌,等. 变电站用电镀铜包钢接地材料在酸性高盐分土壤中腐蚀研究 [J]. 物流工程与管理,2013,16(2):196-197. |
| [13] | 周佩朋,王森,李志忠,等. 耐蚀性金属接地材料研究综述 [J]. 电力建设,2010,31(8):50-54. ZHOU P P,WANG S,LI Z Z,et al. Review of corrosion resistant metals for grounding [J]. Electric Power Construction,2010,31(8):50-54. |
| [14] | 戎志平,夏瑞东. 铜包钢线导电特性的研究 [J]. 电线电缆,1994(Supp. 1):13-16. RONG Z P,XIA R D. Study on conductive properties of copper-clad steel wire [J]. Wire and Cable,1994(Supp. 1):13-16. |
| [15] | 费保俊,张绍先,陈正宏. 铜包钢复合导线的高导特性 [J]. 电线电缆,1997(3):19-21. FEI B J,ZHANG S X,CHEN Z H. High conductivity properties of copper-clad steel wire [J]. Wire and Cable,1997(3):19-21. |
| [16] | 文习山,宋周,谭波,等. 铜覆钢接地导体的电气性能 [J]. 高电压技术,2015,41(2):608-614. WEN X S,SONG Z,TAN B,et al. Electrical properties of copper-clad steel grounding conductors [J]. High Voltage Engineering,2015,41(2):608-614. |
| [17] | 杨琪,蓝磊,杨建军,等. 大型铜包钢接地网的数值计算方法的研究 [J].电瓷避雷器,2015(1):93-98. YANG Q,LAN L,YANG J J,et al. Research on the numerical computation method of large copper-clad steel grounding grid [J]. Insulators and Surge Arresters,2015(1):93-98. |
| [18] | 牛晓民. 电力系统接地分析软件CDEGS简介 [J]. 华北电力技术,2004(12):29-31. |
| [19] | 豆朋,陆培钧,屈勇,等. 利用CDEGS软件比较分析铜和钢接地网的性能 [J]. 高电压技术,2007,33(12):217-219. |
| [20] | 郭振威,罗庆跃,袁旭龙,等. CDEGS在复杂大型接地网优化设计中的应用 [J]. 湖南电力,2010,30(2):4-8. GUO Z W,LUO Q Y,YUAN X L,et al. Application of CDEGS on complicated large grounding grid design [J]. Hunan Electric Power,2010,30(2):4-8. |