Effects of statistical distribution of joint trace length on the stability of tunnel excavated in jointed rock mass

Q4 Earth and Planetary Sciences

International Journal of Mining and Geo-Engineering Pub Date : 2015-12-01 DOI:10.22059/IJMGE.2015.56115

K. Ghorbani, M. Zahedi, Ahmad Asaadi

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引用次数: 2

Abstract

The rock masses in a construction site of underground cavern are generally not continuous, due to the presence of discontinuities, such as bedding, joints, faults, and fractures. The performance of an underground cavern is principally ruled by the mechanical behaviors of the discontinuities in the vicinity of the cavern. During underground excavation, many surrounding rock failures have close relationship with joints. The stability study on tunnel in jointed rock mass is of importance to rock engineering, especially tunneling and underground space development. In this study, using the probability density distribution functions of negative exponential, log-normal and normal, we investigated the effect of joint trace length on the stability parameters such as stress and displacement of tunnel constructed in rock mass using UDEC (Universal Distinct Element Code). It was obtained that normal distribution function of joint trace length is more critical on the stability of tunnel, and exponential distribution function has less effect on the tunnel stability compared to the two other distribution functions.

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节理轨迹长度统计分布对节理岩体开挖隧道稳定性的影响

地下洞室施工现场的岩体通常是不连续的，因为存在不连续面，如层理、节理、断层和裂缝。地下洞室的性能主要受洞室附近结构面力学行为的支配。在地下开挖过程中，许多围岩破坏与节理有着密切的关系。节理岩体中隧道的稳定性研究对岩石工程，特别是隧道掘进和地下空间开发具有重要意义。本文采用UDEC (Universal unique Element Code)方法，采用负指数、对数正态和正态三种概率密度分布函数，研究了节理长度对岩体隧道应力和位移等稳定性参数的影响。结果表明，节理径迹长度的正态分布函数对隧道稳定性的影响更为关键，而指数分布函数对隧道稳定性的影响较小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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