Rockburst Behaviors of Beishan Granite Subjected to Instantaneous Unloading

2013 Fourth International Conference on Digital Manufacturing & Automation Pub Date : 2013-06-29 DOI:10.1109/ICDMA.2013.278

Zhao Xing-guang, Ma Li-ke, Su Rui

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引用次数: 3

Abstract

Deep geological disposal is an internationally accepted way to deal with high-level radioactive waste. A better understanding of mechanical characteristics of host rock is very important for the stability of underground excavation and its long-term safety during operation. In the present study, tests have been performed using a true triaxial rock test system in combination with acoustic emission monitoring technique to investigate the rockburst process of the Beishan granite under the instantaneous unloading condition. When the rock specimen is loaded in three directions, the minimum principal stress in one direction is unloaded suddenly and the intermediate principal stress is kept constant and subsequently the maximum principal stress is increased. The rockburst phenomenon is successfully simulated in the laboratory. The experimental results show that occurrence of rockburst is attributed to the gradual energy accumulation and sudden energy release in the rock. This study provides an experimental basis for further investigating the influence of rock mechanics properties on underground construction and safe assessment in the Beishan area.

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瞬时卸载作用下北山花岗岩岩爆特性研究

深层地质处置是国际上公认的处理高放射性废物的方法。更好地了解围岩的力学特性对地下开挖的稳定性和长期安全运行具有重要意义。本研究采用真三轴岩石试验系统结合声发射监测技术，对北山花岗岩在瞬时卸载条件下的岩爆过程进行了研究。三方向加载时，一个方向的最小主应力突然被卸载，中间主应力保持不变，随后最大主应力增大。在室内成功地模拟了岩爆现象。试验结果表明，岩爆的发生是由于岩石内部能量的逐渐积累和能量的突然释放所致。该研究为进一步研究北山地区岩石力学性质对地下施工及安全评价的影响提供了实验依据。

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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2013 Fourth International Conference on Digital Manufacturing & Automation

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