Influence of the fault zone in shallow tunneling: A case study of Izmir Metro Tunnel

► Investigating the risky areas around a shallow metro tunnel in weak and faulted rocks. ► Determining the effects of tunnel behavior on the structures on ground surface. ► Determining the risky areas on the course of the tunnel by field observations, laboratory work and computer modeling. ► Compari...

Full description

Saved in:
Bibliographic Details
Published in:Tunnelling and underground space technology 2013-01, Vol.33, p.34-45
Main Authors: Kun, Mete, Onargan, Turgay
Format: Article
Language:English
Subjects:
Applied sciences
Buildings. Public works
Computer simulation
Exact sciences and technology
Fault zone
Geotechnics
Grounds
In situ measurement
Mathematical models
Metros
New Austrian Tunneling Method
Rock
Shallow tunnel
Soil investigations. Testing
Structure-soil interaction
Subways
Tunnels (transportation)
Tunnels, galleries
Underground
Weak rock
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:► Investigating the risky areas around a shallow metro tunnel in weak and faulted rocks. ► Determining the effects of tunnel behavior on the structures on ground surface. ► Determining the risky areas on the course of the tunnel by field observations, laboratory work and computer modeling. ► Comparing the data obtain from computer models to which obtained from in situ measurements. Today, there is a great need for larger underground spaces for various purposes and hence, construction of new metro tunnels has become a necessity to meet the demand in urban life in spite of certain ground related difficulties such as fault zones, altered and fractured rock mass and ground water. This study has aimed at investigating the risky areas around a shallow metro tunnel in weak, faulted rocks and determining the effects of tunnel behavior on the structures on ground surface. Therefore, an attempt has been made to determine the risky areas on the line of the tunnel by field observations, laboratory work and computer modeling. Later, the data obtained from computer models have been compared to which obtained from in situ measurements. The results from modeling and in situ measurements were interpreted considering the current status of superstructure and the differences between pre- and post-excavation states in the ground. Finally the data obtained from the modeling analysis and measurements provided the necessity of strengthening the already used support system for the safety of the buildings on surface. Shortening the application ranges of the rock bolts, use of face nails with application of umbrella arc and jetgrout methods are among the precautions to be taken.
ISSN:0886-7798
1878-4364
DOI:10.1016/j.tust.2012.06.016