长江科学院院报 ›› 2017, Vol. 34 ›› Issue (3): 106-110.DOI: 10.11988/ckyyb.20150955

• 岩土工程 • 上一篇    下一篇

变质岩区深埋长大隧道初始地应力场反演研究

黄祥嘉,李相慧   

  1. 中国地质大学武汉 工程学院,武汉 430074
  • 收稿日期:2015-11-09 出版日期:2017-03-01 发布日期:2017-03-10
  • 通讯作者: 李相慧(1991-),女,山西吕梁人,硕士研究生,主要从事岩体稳定性分析与评价,(电话)18771061395(电子信箱)lxhcug@163.com。
  • 作者简介:黄祥嘉(1981-),男,湖北荆州人,博士研究生,主要从事岩体稳定性分析与评价,(电话)13971255047(电子信箱)mhxj81@163.com。

Back Analysis of In-situ Stress Field of Metamorphic Rock in Deep Buried Large Tunnel

HUANG Xiang-jia, LI Xiang-hui   

  1. Faculty of Engineering, China University of Geosciences, Wuhan 430074, China
  • Received:2015-11-09 Published:2017-03-01 Online:2017-03-10

摘要: 初始地应力场是岩土工程设计和施工所要考虑的首要因素。依托十房(十堰至房县)高速通省隧道地应力量测资料,调整不同组合的侧压系数,获得了隧址区岩体多组地应力。利用残差函数,分别计算了各向同性与各向异性本构关系下每一组侧压系数的残差,并进行了对比分析,确定了不同本构关系的最优侧压系数。利用获得的侧压系数,反演计算测试点的地应力,通过与实测结果的对比分析确定了与隧址区岩体适宜的本构关系,最终得到了隧道的初始地应力场分布规律。研究表明,初始地应力场与隧道的埋深和地形地貌有关,且通省隧道更适于在各向异性本构关系下进行地应力场反演,误差幅值约为10%。

关键词: 深埋隧道, 水压致裂法, 本构关系, 地应力场反演, 数值模拟

Abstract: Initial in-situ stress is a primary factor for the design and construction in rock engineering. According to the data of Tongsheng tunnel of Shiyan-Fangxian express highway, different groups of in-situ stress in the tunnel site were acquired by adjusting lateral pressure coefficient. The residuals of different lateral pressure coefficients in isotropic and anisotropic constitutive relations were calculated by constructing a residual function. Through comparing and analyzing the results, the optimal lateral pressure coefficient for the tunnel site was confirmed. Furthermore, the in-situ stress of metamorphic rock at test points was retrieved.The constitutive relation of rock mass at the tunnel site was determined through comparison with measured values. Finally the distribution of in-situ stress field of the tunnel was obtained. The research shows that the initial in-situ stress field is related to the buried depth and the topography of tunnel. The anisotropic constitutive relation is adaptive for Tongsheng tunnel and the error is about 10%.

Key words: deep buried tunnel, hydro-fracturing method, constitutive relation, back analysis of in-situ stress field, numerical simulation

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