地铁盾构隧道管片预埋槽道关键技术研究
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摘要
为了确定地铁盾构隧道管片预埋槽道的最佳断面尺寸、槽体材料、防腐层材料、绝缘层材料等关键参数,以便在国内地铁工程中通用,文章以兰州地铁盾构隧道管片预埋槽道的应用案例为基础,通过理论研究和工程实践,提出了地铁盾构隧道管片槽道的抗疲劳、耐火、绝缘和防腐等性能指标,并对盾构隧道管片预埋槽道的断面尺寸、主槽体和防腐层等关键技术问题进行了研究。研究结果表明:(1)采用断面尺寸为30 mm×20 mm的预埋槽道无论在力学性能还是成本方面都是最佳的;(2)兰州地铁盾构隧道管片预埋槽道采用的主槽体材料、防腐等参数是科学合理的;(3)研究成果不仅为相关国家技术标准的建立奠定了基础,也为同类工程的预埋槽道设计、生产和安装等提供了技术依据。
In order to determine the key parameters of optimal section dimension,channel material,material of erosion-resistant coating and insulation layer and etc.,the performance indexes of anti-fatigue,fire-resistance,insulation and erosion-resistance were proposed based on the theoretical research and engineering application of the embedded channel for the shield tunnel segment of Lanzhou metro,and the key techniques of section dimension of the segment embedded channel,main channel body and erosion-resistance coating were studied.The results show that it is optimal to have the embedded channel with the section dimensions of 30 mmx20 mm both in terms of mechanical behavior and cost;it is scientific and reasonable regarding the parameters of material for main channel body and erosion resistance of the embedded channel for the segment of shield tunnel of Lanzhou metro;this research provides a foundation of establishing relative national standards and technical basis for the design,production and installation of embedded channel of similar projects.
In order to determine the key parameters of optimal section dimension,channel material,material of erosion-resistant coating and insulation layer and etc.,the performance indexes of anti-fatigue,fire-resistance,insulation and erosion-resistance were proposed based on the theoretical research and engineering application of the embedded channel for the shield tunnel segment of Lanzhou metro,and the key techniques of section dimension of the segment embedded channel,main channel body and erosion-resistance coating were studied.The results show that it is optimal to have the embedded channel with the section dimensions of 30 mmx20 mm both in terms of mechanical behavior and cost;it is scientific and reasonable regarding the parameters of material for main channel body and erosion resistance of the embedded channel for the segment of shield tunnel of Lanzhou metro;this research provides a foundation of establishing relative national standards and technical basis for the design,production and installation of embedded channel of similar projects.
引文
[1]邓剑荣,丁先立.预埋滑槽技术在城市轨道交通工程中的应用[J].城市轨道交通研究, 2016, 19(8):90-93.DENG Jianrong, DING Xianli. Application of Pre-embedded Chute Technology in Urban Rail Transit[J]. Urban Mass Transit, 2016,19(8):90-93.
[2]靳世鹤,严松宏,梁庆国.盾构隧道衬砌管片预埋槽道抗碱性试验研究[J].铁道工程学报, 2016, 33(5):55-58.JIN Shihe, YAN Songhong, LIANG Qingguo. Research on the Anti-alkaline Test of Embedded-channel in Lining Segment in Shield Tunnel[J]. Journal of Railway Engineering Society, 2016, 33(5):55-58.
[3]张伯阳,严少发,任浩.高速铁路隧道接触网预埋槽道施工控制技术[J].铁道工程学报, 2012, 29(9):75-79.ZHANG Boyang, YAN Shaofa, REN Hao. Construction Control Technology for Precast Channel for Catenary in Tunnel of Highspeed Railway[J]. Journal of Railway Engineering Society, 2012, 29(9):75-79.
[4]靳世鹤,孙红斌,曲明玉,等.地铁盾构管片预埋槽道防腐技术研究[J].铁道标准设计, 2017, 61(8):121-124.JIN Shihe, SUN Hongbin, QU Mingyu, et al. Study on Anticorrosion Technology of Embedded-channel in Shield Segment of Metro[J]. Railway Standard Design, 2017, 61(8):121-124.
[5]马晓波.盾构管片预埋滑槽技术在兰州地铁中的应用[J].铁道标准设计, 2016(3):101-105.MA Xiaobo. Application of Embedded Chute in Shield Segment of Lanzhou Metro Line[J]. Railway Standard Design, 2016(3):101-105.
[6]周海,陈飞,姚斌,等.铸钢表面多元共渗工艺和性能研究[J].材料热处理学报, 2006, 27(5):104-107.ZHOU Hai, CHEN Fei, YAO Bin, et al. Study on Process of Multi-element Permeation on Cast Steel Surface[J]. Transactions of Materials and Heat Treatment, 2006, 27(5):104-107.
[7]肖作安,费锡明,邹勇进.锌镍合金镀层耐腐蚀性的研究[J].材料保护, 2005, 38(3):15-17.XIAO Zuoan, FEI Ximing, ZOU Yongjin. Corrosion Resistance of Zinc-Nickel Alloy Plating[J]. Materials Protection, 2005, 38(3):15-17.
[8]杜峰.深圳地铁9号线盾构法隧道管片预埋滑槽设计研究及探讨[J].隧道建设, 2014, 34(3):249-253.DU Feng. Design of and Study on Embedded Channels of Segments of Shield-bored Tunnels of Line 9 of Shenzhen Metro[J]. Tunnel Construction, 2014, 34(3):249-253.
[9]徐淑美,周德源,毕大勇.预埋式槽型锚轨抗拔性能的试验研究[J].结构工程师, 2010, 26(5):115-120.XU Shumei, ZHOU Deyuan, BI Dayong. Test Study on Tensile Behavior of Cast-in Channels[J]. Structural Engineers, 2010, 26(5):115-120.
[10]路春莲,李锋.地铁杂散电流腐蚀防护系统相关问题探讨[J].都市快轨交通, 2013, 26(1):64-67.LU Chunlian, LI Feng. Study on Protective Systems against Metro Stray Current Corrosion[J]. Urban Rapid Rail Transit, 2013, 26(1):64-67.
[11]中华人民共和国国家标准.人造气氛腐蚀试验盐雾试验:GB/T 10125-1997[S].北京:中国标准出版社,1997.National Standard of the People′s Republic of China. Corrosion Tests in Artificial Atmospheres-salt Spray Tests:GB/T 10125-1997[S]. Beijing:China Standard Press,1997.
[12]武龙,李著萍,沈宁祥.防腐蚀涂料基料树脂水性化研究进展[J].材料保护, 2001, 34(7):18-19.WU Long, LI Zhuping, SHEN Ningxiang. Development of Studies of Water-Borne Resin for Anticorrosion Paints[J]. Materials Protection, 2001, 34(7):18-19.
[2]靳世鹤,严松宏,梁庆国.盾构隧道衬砌管片预埋槽道抗碱性试验研究[J].铁道工程学报, 2016, 33(5):55-58.JIN Shihe, YAN Songhong, LIANG Qingguo. Research on the Anti-alkaline Test of Embedded-channel in Lining Segment in Shield Tunnel[J]. Journal of Railway Engineering Society, 2016, 33(5):55-58.
[3]张伯阳,严少发,任浩.高速铁路隧道接触网预埋槽道施工控制技术[J].铁道工程学报, 2012, 29(9):75-79.ZHANG Boyang, YAN Shaofa, REN Hao. Construction Control Technology for Precast Channel for Catenary in Tunnel of Highspeed Railway[J]. Journal of Railway Engineering Society, 2012, 29(9):75-79.
[4]靳世鹤,孙红斌,曲明玉,等.地铁盾构管片预埋槽道防腐技术研究[J].铁道标准设计, 2017, 61(8):121-124.JIN Shihe, SUN Hongbin, QU Mingyu, et al. Study on Anticorrosion Technology of Embedded-channel in Shield Segment of Metro[J]. Railway Standard Design, 2017, 61(8):121-124.
[5]马晓波.盾构管片预埋滑槽技术在兰州地铁中的应用[J].铁道标准设计, 2016(3):101-105.MA Xiaobo. Application of Embedded Chute in Shield Segment of Lanzhou Metro Line[J]. Railway Standard Design, 2016(3):101-105.
[6]周海,陈飞,姚斌,等.铸钢表面多元共渗工艺和性能研究[J].材料热处理学报, 2006, 27(5):104-107.ZHOU Hai, CHEN Fei, YAO Bin, et al. Study on Process of Multi-element Permeation on Cast Steel Surface[J]. Transactions of Materials and Heat Treatment, 2006, 27(5):104-107.
[7]肖作安,费锡明,邹勇进.锌镍合金镀层耐腐蚀性的研究[J].材料保护, 2005, 38(3):15-17.XIAO Zuoan, FEI Ximing, ZOU Yongjin. Corrosion Resistance of Zinc-Nickel Alloy Plating[J]. Materials Protection, 2005, 38(3):15-17.
[8]杜峰.深圳地铁9号线盾构法隧道管片预埋滑槽设计研究及探讨[J].隧道建设, 2014, 34(3):249-253.DU Feng. Design of and Study on Embedded Channels of Segments of Shield-bored Tunnels of Line 9 of Shenzhen Metro[J]. Tunnel Construction, 2014, 34(3):249-253.
[9]徐淑美,周德源,毕大勇.预埋式槽型锚轨抗拔性能的试验研究[J].结构工程师, 2010, 26(5):115-120.XU Shumei, ZHOU Deyuan, BI Dayong. Test Study on Tensile Behavior of Cast-in Channels[J]. Structural Engineers, 2010, 26(5):115-120.
[10]路春莲,李锋.地铁杂散电流腐蚀防护系统相关问题探讨[J].都市快轨交通, 2013, 26(1):64-67.LU Chunlian, LI Feng. Study on Protective Systems against Metro Stray Current Corrosion[J]. Urban Rapid Rail Transit, 2013, 26(1):64-67.
[11]中华人民共和国国家标准.人造气氛腐蚀试验盐雾试验:GB/T 10125-1997[S].北京:中国标准出版社,1997.National Standard of the People′s Republic of China. Corrosion Tests in Artificial Atmospheres-salt Spray Tests:GB/T 10125-1997[S]. Beijing:China Standard Press,1997.
[12]武龙,李著萍,沈宁祥.防腐蚀涂料基料树脂水性化研究进展[J].材料保护, 2001, 34(7):18-19.WU Long, LI Zhuping, SHEN Ningxiang. Development of Studies of Water-Borne Resin for Anticorrosion Paints[J]. Materials Protection, 2001, 34(7):18-19.
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