挤压性破碎软岩隧道大变形特征及机制研究

doi:10.13722/j.cnki.jrme.2017.0050

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Abstract

The excavation of tunnels in the soft rock stratum with high geo-stress is easy to cause large squeezing deformation，which is one of the main problems in tunnel construction. This article relies on Maoxian tunnel of Chengdu-Lanzhou Railway to analyse the deformation characteristics and failure modes of Maoxian tunnel，and the deformation and supporting mechanism of large deformation tunnel in squeezing-shattered soft rock was researched. The results show that，during the construction of high geo-stress soft rock tunnel，the magnitude and velocity of deformation might maintain a high level for several days，and the extrusion flow of the surrounding rock was obvious. The loosening circle of surrounding rock had a large radius and appeared to be multi-layered. The bolts in vault area were under pressure. Thus，the bolts and the rock mass turned into a compressing zone together，bore the load jointly. The support structure was under considerable deformation pressure. The steel girders were mostly working at yield state or became failure in various forms，but the failure point was concentrated at some specific locations. As for the rock mass，the shear failure took the main part，and the expansion of joints was obvious. Grouting took a remarkable effect in strengthening the surrounding rock and maintaining the anchor effect. Multi-layer support could release the deformation potential of the surrounding rock gradually，improve the bearing performance of the structure，and reduce the impact of rheological behavior.

Key words： tunneling engineering squeezing soft-rock serious deformation of tunnel in-situ monitoring supporting structure

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	Articles by authors
	LI Lei1
	2
	TAN Zhongsheng1
	2

Cite this article:

LI Lei1,2,TAN Zhongsheng1, et al. Characteristic and mechanism research for large deformation problem in squeezing-shattered soft rock tunnel[J]. , 2018, 37(S1): 3593-3603.

URL:

https://rockmech.whrsm.ac.cn/EN/10.13722/j.cnki.jrme.2017.0050 OR https://rockmech.whrsm.ac.cn/EN/Y2018/V37/IS1/3593

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