Volume 7, Issue 1 (8-2013)                   2013, 7(1): 1725-1742 | Back to browse issues page

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Hedayatnasab K, adib A. Verification of geotechnical data of Qazvin _ Rasht tunnel using back analysis of instrumentation data. Journal of Engineering Geology 2013; 7 (1) :1725-1742
URL: http://jeg.khu.ac.ir/article-1-385-en.html
1- Msc of mining engineering , kambiz.zzzz@gmail.com
Abstract:   (11392 Views)
Various types of numerical analyses such as   Finite Element Method, Boundary Element Method and Distinct Element Method, are used in rock mechanics and in engineering practices for designing rock structures such as tunnels, underground caverns, slopes, dam foundations and so on. In this paper, the results of back analysis of Koohin tunnel which is located in the first section of Qazvin-Rasht railway have been presented. The main purpose of this paper is to perform the back analysis of the mentioned tunnel with the use of numerical models. For modeling the tunnel, two different sections of 30+150 km and 30+900 km are analyzed with FLAC 2D software.  To perform back analysis the suitable interval of geomechanical parameters according to the tests which were performed on the core drillings has been determined. With the use of direct method in back analysis, the errors of models have been corrected in several steps and finally the geomechanical parameters in 30+150 km station (Elastic Modulus = 0.3 GPa, Cohesion = 0.21 MPa and Internal Angle of Friction = 34°) and in 30+900 km station (Elastic Modulus = 0.3 GPa, Cohesion = 0.21 MPa and Internal Angle of Friction = 35°) have been achieved. The geomechanical parameters which obtained from back analysis are completely in the chosen interval and compliance with the results of tests which performed on core drillings. On the basis of  geomechanical parameters obtained from back analysis with the parameters which used in the design of the tunnel, the tunnel design and the structure method were confirmed.  
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Type of Study: Original Research | Subject: En. Geology
Accepted: 2016/10/5 | Published: 2016/10/5

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