Open Access
Issue |
E3S Web Conf.
Volume 194, 2020
2020 5th International Conference on Advances in Energy and Environment Research (ICAEER 2020)
|
|
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Article Number | 05066 | |
Number of page(s) | 6 | |
Section | Environmental Engineering, Ecological Environment and Urban Construction | |
DOI | https://doi.org/10.1051/e3sconf/202019405066 | |
Published online | 15 October 2020 |
- Chao Yafeng, Wang Cheng, Huang Fuyong, Zhou Weihua. Analysis of the operation status of composite insulators for transmission lines in China [J]. High Voltage Apparatus. 2015,51(8):119-124. [Google Scholar]
- Liu Yang, Wang Jianguo, Han Fang, et al. Electrical and mechanical properties of composite insulators with different operating years [J]. High Voltage Engineering, 2008, 34(5: 1017-1021. [Google Scholar]
- Wang Shaowu. Study on the characteristics of organic external insulation in polluted areas [D]. Beijing: Tsinghua University, 2001: 33-34. [Google Scholar]
- Cao Hongwei, Zhang Weijie, Guo Mingjia, etc. Analysis of pollution components and research on cleaning technology for scrapped composite insulators [J]. Applied Chemical Industry, 2017, 46(12) 2403-2407. [Google Scholar]
- Liu Zehong. Status quo of composite insulators use and application prospects thereof in UHV transmission lines [J]. Power System Technology, 2006, 30(12):1-7. [Google Scholar]
- Wang Jingyi. Discussion on the application of composite insulators in UHV DC projects [J]. Power System and Clean Energy, 2010, 26(5: 15-18. [Google Scholar]
- Liang Xidong, Gao Yanfeng, Wang Jiafu, Li Shaohua. The rapid development history of China’s silicone rubber composite insulators [J]. High Voltage Engineering, 2016, 42(9: 2888-2896. [Google Scholar]
- Wu Guangya, Peng Jiankun, Zhang Rui. Status quo and application prospects of composite insulators market in China [J]. Electrical Equipment, 2005. 6 (3): 104-106. [Google Scholar]
- Su Zhiyi, Chen Gang, Li Qingfeng, et al. Study on the aging and criterion of sheds and housing of silicone rubber composite insulator [J]. Power System Technology, 2006, 30(12: 53-57. [Google Scholar]
- Yan Nianping, Jiafang Wei, Wan Hua, Cheng Zheng, Jia Zhidong. Study progress on the aging status and characterization technology of high-temperature vulcanized silicone rubber [J]. Insulating Materials, 2017, 50(12):1-9. [Google Scholar]
- Cao Hongwei, Zhu Lina, Wu Wenlong, Du Linjuan, Chen Haojun. A evaluation method for the service life of composite insulators: 201410786920.0 [P].2014-12-18. [Google Scholar]
- Zhang Rui. Formula design and aging performance evaluation of silicone rubber materials for composite insulators [J]. Insulators and Surge Arresters, 2012 (6): 39-45. [Google Scholar]
- Xuan Sheng, Zhang Younan. Formula of silicone rubber materials for composite insulators in power systems [J]. Synthetic Rubber Industry, 2012, 35(4: 295-290. [Google Scholar]
- Zhan Xuegao, Ji Jiaping, Zhuge Yanfei. Development of high-strength thermally vulcanized silicone rubber for composite insulators [J]. Silicone Material, 2010, 24(1: 19-22. [Google Scholar]
- Xie Chuan. Study on the status quo of modified asphalt from waste tire rubber powder [J]. China Tire Resources Recycling;CTRA, 02/2018, 23-27. [Google Scholar]
- Jiang Xuewen. Analysis of the application prospect, economic and social benefits of rubber asphalt technology [J]. Transportation Construction & Management, 04/2018, 91-92. [Google Scholar]
- Wang Yi, Huang Weidong. Introduction to Rubber Asphalt Use Status in USA [J]. Journal of China & Foreign Highway, 2009, 29(6):274-277. [Google Scholar]
- Cao Rongji, Chen Rongsheng. Experimental study on the influence of rubber asphalt process parameters on its performance [J]. Journal of Southeast University (Natural Science Edition), 2008,38(2):269-273. [Google Scholar]
- Li Tinggang, Li Jinzhong, Li Wei. Study on the microscopic mechanism of rubber asphalt and its application in highway engineering [J]. Journal of Highway and Transportation Research and Development, 2011, 28(1: 25-30. [Google Scholar]
- Chang Zhanhong. Study on the application of rubber asphalt technology in highway pavement [J]. Transport World, 2018, 468: 52-53. [Google Scholar]
- Wang Yonghai. Application of asphalt rubber in the maintenance project of Xueguan Line of Tai’an highway [D]. Jilin University, 12/2017. [Google Scholar]
- Wang Xiaofeng, Cao Rongji. Modification mechanism of rubber asphalt [J]. Journal of Chang’an University (Natural Science Edition), 2011, 31(2: 6-11. [Google Scholar]
- Wang Shuiyin, Guo Chaoyang, Peng Feng. Modification mechanism of waste tire rubber powder [J]. Journal of Chang’an University (Natural Science Edition), 2010, 30(4: 34-38. [Google Scholar]
- Yang Ruochong, Tan Zhiming, Huang Xiaoming, et al. Study on road performance of rubber concrete with polymer [J]. China Journal of Highway and Transport, 2010, 23(4); 15-20. [Google Scholar]
- Huang S.C.., Rubber concentrations on rhcology of aged asphalt binders[J]. Journal of Materials in Civil Engineer, 2008, 30(3):221-229. [Google Scholar]
- Xiao Chuan, Ling Tianqing. Application and research of waste rubber powder modified asphalt materials in road engineering [J]. Highway Engineering, 2009, 34(4: 49-53. [Google Scholar]
- Shen Zhongshuo, Qin Gang, Zhang Zhen, et al. Study on preparation and performance of silicone rubber powder modified asphalt [J]. Highway, 06/2018, 244-248. [Google Scholar]
- Writing group of “Rubber Industry”. Rubber Industry Handbook, Volume 1 (Revised) [M]. Beijing: Chemical Industry Press, 1989, 538-595. [Google Scholar]
- Yang Junhua. Some technological progress of foreign silicone rubber in recent years [J]. China Synthetic Rubber Industry, 1991, 14(5): 372. [Google Scholar]
- Dou Qiang, Wu Shishan, Zhu Xuehai, Jin Lin. Study on the blending of methyl vinyl silicone rubber and EPDM [J]. Rubber Industry, 1997, 44(5: 263-266. [Google Scholar]
- Zhang Weiying, Li Xiao, Li Jianzhao, Lin Bo. Study on blending of activated modified waste silicone rubber and EPDM [J]. Rubber Industry, 2003, 50(3: 143-146. [Google Scholar]
- Sun Bin, Cao Hongwei, Du Linjuan, Du Zhenxia. Study on properties of blends of modified waste silicone rubber composite insulator powder and Ethylene-Propylene-Diene Monomer(EPDM) [J]. Journal of Beijing University of Chemical Technology (Natural Science Edition), 2017,44(3):33-38. [Google Scholar]
- Xie Qianhong, Luo Yongle, Chen Xiaotian, Guo Jiehuang. Research progress of color pavement skid-resistant coatings [J]. Guangdong Chemical Industry, 2014,41(14):91-92. [Google Scholar]
- Deng Qi, Xu Jinwen, Gao Xinhua, Wu Youli. Technology status quo and development trend of skid-resistant coatings for ship deck [J]. Chinese Journal of Ship Research, 2013, 8(2: 111-116. [Google Scholar]
- Zhang Xueqing, Zhang Weiguo, Li Xuchao. Overview of the development of skid-resistant coatings [J]. Modern Paint & finishing, 2002: 5 (3): 10-12. [Google Scholar]
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