Evolution of loosened zone of surrounding rock for tunnels constructed by multi-partition excavation method

ZHANG Hui-jian; GONG Lun; QIU Wen-ge; ZHAO Bin

doi:10.11779/CJGE201412022

Volume 36 Issue 12

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Chinese Journal of Geotechnical Engineering > 2014 > 36(12): 2323-2329. > DOI: 10.11779/CJGE201412022

ZHANG Hui-jian, GONG Lun, QIU Wen-ge, ZHAO Bin. Evolution of loosened zone of surrounding rock for tunnels constructed by multi-partition excavation method[J]. Chinese Journal of Geotechnical Engineering, 2014, 36(12): 2323-2329. DOI: 10.11779/CJGE201412022

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Evolution of loosened zone of surrounding rock for tunnels constructed by multi-partition excavation method

ZHANG Hui-jian^{1, 2},
GONG Lun^{1, 2},
QIU Wen-ge^{1, 2},
ZHAO Bin^{1, 2}

1. Key Laboratory of Transportation Tunnel Engineering, Ministry of Education, Chengdu 610031, China; 2. School of Civil Engineering, Southwest Jiaotong University, Chengdu 610031, China

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Received Date: March 19, 2014
Published Date: December 25, 2014

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Based on Wumengshan No. 2 railway station tunnel with four tracks, numerical simulation is performed to comparatively study the differences of loosened zone between multi-partition excavation and full face excavation. Based on the field monitoring data, the evolution of loosened zone by multi-partition excavation is analyzed. The results indicate that: from the viewpoint of thickness of loosened zone, the full face excavation makes it greater than the multi-partition excavation does, with the maximum value being 12.6% greater and the minimum value being 41.2% greater. From the viewpoint of distribution of loosened zone, the full face excavation makes it generally symmetrical, but the multi-partition excavation does not. Besides, for the multi-partition excavation, the thickness of loosened zone decreases from the crown to the side wall, but for the full face excavation, the thickness has a distribiotion of “crown > arch toe > arch shoulder > side wall”. For the multi-partition excavation case, the loosened zone near the earlier excavated part will increase owing to the later excavation of other parts. This influence of “up and down position” is greater than that of “left and right position”. Furthermore, for the left and right position, the loosened zone near the later excavated part is little greater than that near the earlier excavated part. This makes it clear that the earlier excavation has deteriorating effect on the later excavated part. The final loosened zone is the result of excavation interaction of all parts, so it is highly process-related.
- loosened zone,
- tangential stress disturbance factor,
- numerical simulation,
- ground penetrating radar (GPR),
- process-dependent

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Evolution of loosened zone of surrounding rock for tunnels constructed by multi-partition excavation method

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