The Stability Impact Study for Blasting near Underground Caverns

Cheng Man Sha; En De Wang; Jian Fei Fu; Gen Qun Hou; Tian Bao Zhang

doi:10.4028/www.scientific.net/AMM.256-259.1172

Paper Titles

Experimental Study of Section Enlargement with Reinforced Concrete to Increase Shear Capacity for Damaged Reinforced Concrete Beams
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Prediction of the Deformation of the Surrounding Rock around Tunnels by GA-Bp Network Model
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Underground Engineering Rock Burst Review of Research
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Application and Research of Geologic Radar in Groundwater Disease of Tunnel Engineering Inspection
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The Stability Impact Study for Blasting near Underground Caverns
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Numerical Modeling and Optimizing Construction Schemes for Transition Section Complex Structure of Large Scale Underground Railway Station and Tunnel
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Analysis of a Collapse in Deep Tunnel Based on Microseismic Monitoring
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Effects of Open Trench Dimension on Screening Effectiveness for High Speed Train Induced Vibration
p.1187

Theoretical Analysis on Pressure Arch Boundary around Circular Tunnel
p.1191

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 256-259The Stability Impact Study for Blasting near...

The Stability Impact Study for Blasting near Underground Caverns

Abstract:

Nowadays, the safety effection study of the surface explosion operations on underground cavern safety become more and more important along with engineering construction's development. In this paper, effection of open stope surface explosive operations on underlying gap cavern as an example on studying the effection of blasting shock on underground cavern stability with the method of field monitoring and numerical simulation.When the explosion source and seismic gap are almost in the same level, the longitudinal wave leads the role of damage effect. The most dangerous part of the mined-out area is the spandrel. The collapse models of mined-out area manifest are as follows, cracks appear on 45. Inclined top of surface in mined-out area, the spandrels appear broken, surface cracks expand further, broken parts of spandrel are aggravated, arch waist are in jog and the side collapse inward in the end.

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Periodical:

Applied Mechanics and Materials (Volumes 256-259)

Pages:

1172-1176

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.256-259.1172

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Online since:

December 2012

Authors:

Cheng Man Sha, En De Wang, Jian Fei Fu, Gen Qun Hou, Tian Bao Zhang

Keywords:

Blast Vibrate, Dynamic, Mined-Out Area, Numerical Simulation

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