Abstract:Research purposes: The plate activity along the CZ railway is intense and the structure is developed. There are 11 Holocene active faults distributed along the section from CZ railway, with 11 lines passing through them. More than 50% of the lines are located in the earthquake intensity area of 8 degrees or above. Seismic activity in the region is frequent and intense, with 354 earthquakes of magnitude 4.7 or above recorded in history, and the largest earthquake was Chayu and Medog earthquakes of magnitude 8.6 in Tibet on August 15, 1950, which brought unprecedented challenges to the selection of route schemes and disaster prevention and mitigation. Therefore, it is necessary to systematically study the disaster-causing mechanism of active faults. Research conclusions: (1) The active faults have five disaster-causing mechanisms such as "upper plate effect, distance effect, terrain effect, persistent effect and follow-up effect". (2) Railway route selection in high-intensity earthquake areas should adopt the countermeasures of "avoiding active plate, away from faults, avoiding dangerous slopes and crossing directly". (3) The engineering setting shall follow the principles of "stabilizing stratum, simplifying engineering, first selecting tunnel and leave some leeway", etc. (4) The conclusion can provide reference for railway survey, design and engineering construction in Yunnan-Tibet, China-Nepal and other complex and dangerous mountainous areas.
毕强, 李伟, 林世金. 活动断裂致灾机理及在CZ铁路选线中的应用[J]. 铁道工程学报, 2022, 39(2): 24-29.
BI Qiang, LI Wei, LIN Shijin. Disaster-causing Mechanism of Active Faults and Its Application in Route Selection in CZ Railway. Journal of Railway Engineering Society, 2022, 39(2): 24-29.
黄润秋,李为乐.“5.12”汶川大地震触发地质灾害的发育分布规律研究[J].岩石力学与工程学报,2008(12):2587-2588.Huang Runqiu,Li Weile.Research on Development and Distribution Rules of Geohazards Induced by Wenchuan Earthquake on 12th May,2008[J].Chinese Journal of Rock Mechanics and Engineering,2008(12):2587-2588.
[2]
姚令侃,陈强."5.12" 汶川地震对线路工程抗震技术提出的新课题[J].四川大学学报:工程科学版,2009(3):44-49.Yao Lingkan,Chen Qiang.New Research Subjects on Earthquake Resistant Techniques of Line Engineering Extracted from "5.12" Wenchuan Earthquake[J].Journal of Sichuan University:Engineering Science Edition,2009(3):44-49.
[3]
张永双,任三绍,郭长宝,等.活动断裂带工程地质研究[J].地质学报,2019(4):763-775.Zhang Yongshuang,Ren Sanshao,Guo Changbao,etc.Research on Engineering Geology Related with Active Fault Zone[J].Acta Geologica Sinica,2019(4):763-775.
[4]
许佑顶,姚令侃.川藏铁路沿线特殊环境地质问题的认识与思考[J].铁道工程学报,2017(1):1-5.Xu Youding,Yao Lingkan.Some Cognitions and Thinkings about the Specific Geo-environmental Problems along the Sichuan-Tibet Railway[J].Journal of Railway Engineering Society,2017(1):1-5.
[5]
魏永幸,岳志勤,李光辉.复杂艰险山区地质灾害识别与铁路减灾选线[J].高速铁路技术,2019(3):1-5.Wei Yongxing,Yue Zhiqin,Li Guanghui. Identification of Geological Hazards and Disaster Reduction Techniques of Railway Route Selection in Complex Dangerous Mountain Area[J].High Speed Railway Technology,2019(3):1-5.
[6]
许强,李为乐.汶川地震诱发大型滑坡分布规律研究[J].工程地质学报,2010(6):818-826.Xu Qiang,Li Weile. Distribution of Large-scale Landslides Induced by the Wenchuan Earthquake[J].Journal of Engineering Geology,2010(6):818-826.
[7]
张克旗,吴中海,周春景,等.川西理塘断裂带奔戈-村戈段古地震事件及其非均匀性活动特征[J].地质学报,2020(4):1295-1303.Zhang Keqi,Wu Zhonghai,Zhou Chunjing,etc. Paleoearthquake Events and Inhomogeneous Activity Characteristics in the Benge-Cunge Section of the Litang Fault Zone in the Western Sichuan Province[J]. Acta Geologica Sinica,2020(4):1295-1303.
[8]
万佳威,褚宏亮,李滨,等.西藏嘉黎断裂带沿线高位链式地质灾害发育特征分析[J].中国地质灾害与防治学报,2021(3):51-60.Wan Jiawei,Chu Hongliang,Li Bin,etc.Characteristics,Types,Main Causes and Development of High-position Geohazard Chains along the Jiali Fault Zone,Tibet,China[J].The Chinese Journal of Geological Hazard and Control,2021(3):51-60.
2022, Vol. 39 
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