Numerical Analysis of a Shallow-Buried Portal in Expressway Tunnel with Weak Rockmass
p.1369
p.1369
Comparative Analysis of Analytical Method of the Support Pressure at Tunnel Face
p.1373
p.1373
Experimental Study on Effect of Longitudinal Ventilation Velocity and Slope on Smoke Movement in Tunnels
p.1381
p.1381
Influence of Pit Excavation Supported by Soil-Nailing Wall on Adjacent Buried Pipelines
p.1388
p.1388
Numerical Analysis of Underground Engineering on Self-Developed Finite Element Method
p.1392
p.1392
Numerical Simulation of Critical Velocity in Obstructed Tunnel
p.1396
p.1396
Experimental Research on Rheological Property of Water-Bearing Weak Sandstone in Large Cross-Section Tunnelling
p.1402
p.1402
Monitoring and Results Analysis of Tunnel Engineering
p.1406
p.1406
Safety and Durability Pavement in Super Long Tunnel
p.1411
p.1411
Numerical Analysis of Underground Engineering on Self-Developed Finite Element Method
Abstract:
The self-developed finite element method has many advantages and good prospects to solve problems of underground engineering. The program is used to the simulation of the true tunnel, while it is embedded into self-developed algorithm. The results indicate that self-developed finite element method has many advantages and good prospects to solve geotechnical problems, and it can be used for quantitative analysis of underground engineering.
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Periodical:
Applied Mechanics and Materials (Volumes 256-259)
Pages:
1392-1395
Citation:
Online since:
December 2012
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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