Home | About Journal  | Editorial Board  | Instruction | Subscription | Advertisement | Message Board  | Contact Us | 中文
MODERN TUNNELLING TECHNOLOGY 2012, Vol. 49 Issue (3) :182-185    DOI:
Current Issue | Next Issue | Archive | Adv Search << [an error occurred while processing this directive] | [an error occurred while processing this directive] >>
Geological Prediction Methods of Expressway Tunnel on Yinxiu Epicenter
1 Sichuan Dujiangyan-Wenchuan Expressway Construction Development Corporation, Chengdu 610041 2 China Railway Southwest Research Institute Co., Ltd, Chengdu 611731
Download: PDF (0KB)   HTML (1KB)   Export: BibTeX or EndNote (RIS)      Supporting Info
Abstract Yingxiu-Wenchuan expressway is located in Wenchuan earthquake epicenter which has complex geological conditions, such as developed cracks, loose and fractured rocks, abundant groundwater and accumulation of rock masses due to the earthquake. This paper discusses the geological prediction scheme for the tunnel based on the analysis of domestic and international geological prediction methods, and illustrates the application and effects.
Service
Email this article
Add to my bookshelf
Add to citation manager
Email Alert
RSS
Articles by authors
Keywords:   
Abstract: Yingxiu-Wenchuan expressway is located in Wenchuan earthquake epicenter which has complex geological conditions, such as developed cracks, loose and fractured rocks, abundant groundwater and accumulation of rock masses due to the earthquake. This paper discusses the geological prediction scheme for the tunnel based on the analysis of domestic and international geological prediction methods, and illustrates the application and effects.
Keywords:   
Cite this article:   
.Geological Prediction Methods of Expressway Tunnel on Yinxiu Epicenter[J]  MODERN TUNNELLING TECHNOLOGY, 2012,V49(3): 182-185
URL:  
http://www.xdsdjs.com/EN/      或     http://www.xdsdjs.com/EN/Y2012/V49/I3/182
 
No references of article
[1] YUAN Xianfan1 LIAO Dan2.Research on Interpretation Method of TRT Test Results Based on GOCAD[J]. MODERN TUNNELLING TECHNOLOGY, 2019,56(3): 18-24
[2] YANG Jihua1 LIANG Guohui2 CAO Jianfeng2 YANG Fengwei1.Study on Key Techniques for TBM1 Section of the Water Conveyance Tunnel of Lanzhou Water Source Construction Project[J]. MODERN TUNNELLING TECHNOLOGY, 2019,56(2): 10-17
[3] ZHI Peng SHI Tianyun WANG Wanqi XIE Yalong.Key Techniques for Lean Construction Management of the High Speed Railway Tunnels[J]. MODERN TUNNELLING TECHNOLOGY, 2018,55(6): 26-32
[4] WANG Bo-1, GUO Xin-Xin-1, HE Chuan-1, WU De-Xing-2.[J]. MODERN TUNNELLING TECHNOLOGY, 2018,55(5): 1-10
[5] .Numerical Simulation of Advanced Geological Forecasting Based on MultiSource Seismic Interferometry[J]. MODERN TUNNELLING TECHNOLOGY, 2018,55(3): 92-97
[6] LIU Zhaoyong WANG Yilei YANG Wei.Relative Coordinate Measuring System Applied in the Geological Advanced Prediction with Tunnel Reflection Tomography[J]. MODERN TUNNELLING TECHNOLOGY, 2018,55(2): 146-151
[7] .Analysis of the Reliability of Advanced Geological Prediction during TunnelConstruction Based on the Attribute Recognition Theory[J]. MODERN TUNNELLING TECHNOLOGY, 2017,54(4): 48-55
[8] ZHOU Jie XI Jinzhou.Application of a Comprehensive Geological Prediction System to Construction of the New Tongluoshan Tunnel[J]. MODERN TUNNELLING TECHNOLOGY, 2017,54(4): 207-212
[9] YU Shi-Wei- 1 Liu-Cheng-Yu- 1, 2.Rock Mass Elastic Resistance Coefficient Measurement Based on the Seismic Wave Method[J]. MODERN TUNNELLING TECHNOLOGY, 2017,54(1): 68-73
[10] Tuo Yongfei, Guo Xiaohong.General Design and Key Technologies of the Nanjing Weisan Road River-Crossing Tunnel Project[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 1-6
[11] Lin Xin1, Shu Heng1, Zhang Yaguo2, Yang Linsong1, Li Jin1, Guo Xiaohong1.Study of the Longitudial Profile Optimization of Large-Diameter Shield Tunnels in Mixed Ground with Very High Water Pressure[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 7-14
[12] Yao Zhanhu1, Yang Zhao2, Tian Yi1, Hu Huitao1.Key Construction Technology for the Nanjing Weisan Road River-Crossing Tunnel Project[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 15-23
[13] Li Xinyu, Zhang Dingli, Fang Qian, Song Haoran.On Water Burst Patterns in Underwater Tunnels[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 24-31
[14] Shu Heng, Wu Shuyuan, Li Jian, Guo Xiaohong.Health Monitoring Design for Extra-Large Diameter Underwater Shield Tunnels[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 32-40
[15] Liu Guangfeng1, Chen Fangwei2, Zhou Zhi1, Zhang Shilong3, Liu Mingqiang1.Identification of Investment Risks for River-Crossing Tunnels Based on Grey Fuzzy Multi-Attribute Group Decision Making[J]. MODERN TUNNELLING TECHNOLOGY, 2015,52(4): 41-48
Copyright 2010 by MODERN TUNNELLING TECHNOLOGY