STUDY ON MECHANICAL BEHAVIOR OF HARD ROCK TUNNEL IN HIGH GEO-STRESSES AND OPTIMIZATION OF ROUND LENGTH IN ROCK BURST AREA

机译：高地理应力中硬岩隧洞力学行为研究及岩爆区域圆长的优化

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In this paper, three-dimensional finite difference numerical simulation method considering the strain softening effect is conducted to investigate the occurrence of rock burst in the Daxiangling tunnel through the hard rock layer in high geo-stresses. The results show that the deep-lying hard rock runnel subjected to the high geo-stresses has the mechanical characteristics of stress-strain orthogonality, which is completely different from that subjected to common geo-stresses. So the occurrence location of rock burst usually is perpendicular to the orientation of the maximum geo-stress. Furthermore, it is found that for the Daxiangling expressway tunnel the rational round length in rock burst area should be limited to about 2 m.

机译：本文采用了考虑应变软化效果的三维有限差分数值模拟方法，以研究大曲线隧道岩爆在高地理应力中的硬岩层的发生。结果表明，经受高地质应力的深层硬岩脉冲具有应力 - 菌株正交性的力学特性，其与经受普通地质应力的完全不同。因此，岩石突发的发生位置通常垂直于最大地质应力的方向。此外，发现，对于大庆高速公路隧道，岩爆区域的合理圆形长度应限制在约2米。

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《International symposium on rockburst and seismicity in mines》|2009年||共8页
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中图分类矿山安全与劳动保护;
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STUDY ON MECHANICAL BEHAVIOR OF HARD ROCK TUNNEL IN HIGH GEO-STRESSES AND OPTIMIZATION OF ROUND LENGTH IN ROCK BURST AREA

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