Methods Applied in the Prediction of Brittle Failure in Tunnels and Underground Caverns

Hydro Nepal: Journal of Water, Energy and Environment Pub Date : 2018-01-14 DOI:10.3126/HN.V22I0.18990

K. K. Panthi

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引用次数: 2

Abstract

Tunnels and underground caverns located at greater depth (high rock cover or overburden) are subjected to high in-situ stress environment. Those rock mass that are relatively unjointed and massive are exposed to the brittle failure, which is famously known as rock spalling/ rock bursting phenomenon. Establishing state of the stress and evaluating stress-induced instability in tunnels passing through such rock mass at relatively greater depth is therefore a challenge. The aim of this manuscript is to describes existing brittle failure (rock burst) prediction methods that are being practiced worldwide and propose necessary editions so that quality of assessment is enhanced. The methods described are very practical and the author is confident that professional engineers will use them to evaluate and predict potential rock burst/ rock spalling scenario in the tunnels during planning, design and construction phases. Each method of prediction is explained, applicability extent is highlighted and comparisons between the methods are made. HYDRO Nepal Journal Journal of Water Energy and Environment Issue No: 22 Page: 5-9 Uploaded date: January 14, 2018

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方法在隧道及地下洞室脆性破坏预测中的应用

隧道和地下洞室位于较深(高岩石覆盖层或覆盖层)，处于高地应力环境中。那些相对不节理和块状的岩体会发生脆性破坏，这就是众所周知的岩石剥落/岩石破裂现象。因此，在较深的深度下，隧道穿过此类岩体时，应力状态的建立和应力诱发失稳的评价是一个挑战。本文的目的是描述目前世界范围内正在实施的脆性破坏(岩爆)预测方法，并提出必要的版本，以提高评估质量。所描述的方法非常实用，作者相信专业工程师将在规划、设计和施工阶段使用它们来评估和预测隧道中潜在的岩爆/岩石剥落情况。对各种预测方法进行了说明，强调了各种预测方法的适用范围，并进行了比较。水电尼泊尔杂志水能源与环境杂志第22期第5-9页上传日期:2018年1月14日

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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Hydro Nepal: Journal of Water, Energy and Environment

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