Abstract:Research purposes: About of the high stress of the deep - buried long tunnel,there are many theories and criterions,and the different criterions are used for the different industries and projects. How to predict the geologicaldisaster of rock outburst to direct the safe construction is a question. Through the survey prediction and construction verification of the Cuihuashan Super Long Tunnel in Qinling Mountain area,this paper studies the issues of the high stress of tunnel and how to predict the geological disaster of rock outburst.
Research conclusions: As the included angle between the maximum horizontal principal stress direction and tunnel axis direction of the Cuihuashan Super Long Tunnel is over large,the rock outburst is inevitable. The conclusion that there is possible to happen thge rock outburst obtained by calculating stress parameters and rock parameters has a certain one - sidedness. The construction practice of the Cuihuashan Tunnel proves that the rock outburest should be assessed by using various criterions to make the prediction closer to the actual situation.
杜世回. 秦岭翠华山特长隧道高地应力问题研究[J]. 铁道工程学报, 2012, 29(2): 55-58,63.
DU Shi - hui. Study on High Stress of Cuihuashan Super Long Tunnel in Qinling Mountain Area. 铁道工程学报, 2012, 29(2): 55-58,63.
The First Survey and Design Institute Group Ltd of China Railway. Engineering Geological Survey Report of Qinling Cuihuashan Super Long Tunnel in the Second XiKang Railway[R]. Xi ’an: The First Survey and Design Institute Group Ltd of China Railway,2009.
The First Survey and Design Institute Group Ltd of China Railway. Qinling Super Long Tunnel Construction Technology ( Ⅰ ) – Reports of Rock Burst Prediction and Precaution Technology Research, and Special Research General Reports[R]. Lanzhou: The First Survey and Design Institute of China Railway,1999.
[3] GB 50218—94,工程岩体分级标准[S].
GB 50218—94,Engineering Classification of Rock Masses[S].
The First Survey and Design Institute of China Railway. The Character of the Tectonic Stress of Crossing - mountain Area of Qinling Mountain at Sublevel of Preliminary Survey of Xi’an - An’kang Railway[R]. Lanzhou: The First Survey and Design Institute of China Railway,1989.
Ding Lifeng,Zhang Zhiguo,The Report of Hydraulic Fracturing Stress Measurement in Cuihuashan Super long Tunnel in the Second Xikang Railway[R]. Beijing: Institute of Crustal Dynamics, China Earthquake Administration,2007.
[6] 铁道部第一勘测设计院. 铁路工程地质手册[M]. 北京:中国铁道出版社,1999.
The First Survey and Design Institute of China Railway. Geological Handbook of Railway Projects[M]. Beijing: China Railway Publishing House,1999.
[7] 李立民. 秦岭输水隧洞的岩爆预测[J]. 铁道勘察,2007 ( 3) : 90 -92.
Li Liming,Prediction for Rock Burst in Water Tunnel of Qinling Mountain [J]. Railway Investigation and Surveying,2007( 3) : 90 - 92.
Xu Shiliang,etc. Rock Burst Prediction for Ventilation Shaft of Qinling Highway Tunnel and Its Countermeasures[J]. Roch and Soil Mechanics,2009 ( 6) : 1759 -1763.
The Project Department of China CREC Railway Electrification Bureau Group in the Second of XiKang Railway. The Rock Burst in Qinling Cuihuashan Tunnel [Z]. Xi’an: The Project Department of China CREC Railway Electrification Bureau Group in the Second of Xikang Railway,2011.
Liu Daosheng. Forecasted for Rock Burst of Cuihuashan Super Long Tunnel in Mountain Qinling on the Second Line of Xi 'an - Ankang Railway [J]. Railway Investigation and Surveying,2009( 3) : 52 - 54.
Wang Bo,etc. Research on the Prediction of Rock Outburst for Deep - burying Long Tunnel[J]. Journal of Railway Engineering Society,2009( 11) : 48 - 68.
2012, Vol. 29 
版权所有 © 2014 《铁道工程学报》编辑部