二向不等地压条件下高水压区隧道稳定性分析

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Abstract Research purposes: In high water pressure area，the tunnel is easy to collapse and water inrush occurs because of groundwater seepage，which makes the secondary stress state of the excavated tunnel changed and thus the inelastic deformation area around the tunnel is altered. In this paper，stress distribution and factors that affected the plastic zone and the rupture zone of surrounding rock of the tunnel under ground water are analyzed to provide evidence of decision making for the maintenance of tunnel in high-pressure water-rich area.

Research conclusions:(1)Taking into account seepage body force，strain softening of rock mass，dilatancy and lateral pressure coefficient，elastic-plastic mechanics theory is applied to derive distribution laws of stress and displacement of surrounding rock under two-dimension unequal pressure considering seepage，strain softening and dilatancy，and establish relationships between different partition range of surrounding rocks，pore water pressure，strain softening coefficient of rock mass，dilatancy factor and lateral pressure coefficient.(2)The results have shown that pore water pressure，lateral pressure coefficient，strain softening of rock mass and dilatancy have greater impact on the fractured zone than the plastic zone. Considering lateral pressure coefficient，the impact of seepage field，strain softening of rock mass and dilatancy on the plastic zone and the fractured zone of tunnel along the different directions show inhomogeneity. (3)The results provided a theoretical basis for the stability analysis on surrounding rock of tunnel in high water pressure area. And it is practical meaningful for underground engineering like supporting structure design of the tunnel in the high pressure water-rich area and decision of the scope of the pre-grouting works.

Key words： surrounding rock of tunnel seepage two-dimension unequal pressure dilatancy softening

Received: 27 June 2013

PACS:

U459. 5

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	GAO Zhao-ning
	MENG Xiang-rui
	FU Zhi-Bang

Cite this article:

GAO Zhao-ning,MENG Xiang-rui,FU Zhi-Bang. Analysis of Stability of Tunnel under Two-dimension Unequal Pressure in High Water Pressure Area[J]. 铁道工程学报, 2013, 30(11): 62-68.

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http://tdgcxb.crec.cn/EN/ OR http://tdgcxb.crec.cn/EN/Y2013/V30/I11/62

[1]翁其能，秦伟.高水压隧道衬砌渗流—应力—损伤祸合模型研究[J].铁道工程学报，2013(5):63-68

Weng Qineng, Qin Wei. Study on Seepage—Stress— Failure Coupling Model for Tunnel Lining with High Water Pressure[J].Journal of Railway Engineering Society , 2013 ( 5):63-68.

[2]吕晓聪，许金余.海底圆形隧道在渗流场影响下的弹塑性解[J].工程力学，2009(2):216-221.

Lv Xiaocong, Xu Jinyu. Elastic-Plastic Solution for Subsea Circular Tunnel under the Influence of Seepage Field [ J].Engineering Mechanics , 2009 ( 2 ) : 216-221.

[3]苏海健，靖洪文，张春宇，等.软化与膨胀作用下深部巷道围岩薪弹塑性分析[J]采矿与安全工程学报，2012 (2):185-190

Su Haijian,Jing Hongwen,Zhang Chunyu,etc. Visco- Elastoplastic Analysis on the Deep Underground Roadway Surrounding Rocks Considering Softening and Swelling [ J ].Journal of Mining &Safety Engineering, 2012(2):185-190.

[4]曾开华，鞠海燕，盛国君，等巷道围岩弹塑性解析解及工程应用[J].煤炭学报，2011(5):753-755.

Zeng Kaihua, Ju Haiyan, Sheng Guojun, etc. Elastic- plastic Analytical Solutions for Surrounding Rocks of Tunnels and Its Engineering Applications[J].Journal of China Coal Society , 2011( 5) : 753-755.

[5]蔡晓鸿，蔡勇平.水工压力隧洞结构应力计算[M].北京:中国水利水电出版社，2004

Cai Xiaohong, Cai Yongping. Structure Stress Calculation for Hydraulic Pressure Tunnel[M]. Beijing: China Water Power Press,2004.

[6]卞康，肖明.二向不等围压条件下考虑软化及剪胀的圆形隧洞弹塑性解[J].岩石力学与工程学报，2011( S2 ) : 3831-3838.

Bian Kang,Xiao Ming. Analytical Solutions of Circular Tunnel under Two-dimension Unequal Pressure Considering Dilatancy and Softening[J].Chinese Journal of Rock Mechanics and Engineering ,2011( S2 ): 3831-3838.

[7]孙金山，卢文波.非轴对称荷载下圆形隧洞围岩弹塑性分析解析解[J]岩土力学，2007(增刊):327-332.

Sun Jinshan, Lu Wenbo. Analytical Elastoplastic Solutions to Supporting Rock Masses of Circular Tunnels under Asymmetric Load[J].Rock and Soil Mechanics , 2007 ( S ) :327-332.

[8]李宗利，任青文，王亚红.考虑渗流场影响深理圆形隧洞的弹塑性解[J].岩石力学与工程学报，2004 ( 8 ) : 1291- 1295

Li Zongli,Ren Qingwen,Wang Yahong. Elasto-plastic Analytical Solution of Deep-buried Circle Tunnel Considering Fluid Flow Field[J].Chinese Journal of Rock Mechanics and Engineering, 2004(8):1291- 1295.

[9]付国彬.巷道围岩破裂范围与位移的新研究关[J].煤炭学报，1995(3):304-310

Fu Guobin. Recent Investigation of Extent of Fractured Zone and Displacement of Rocks Around the Roadways [J].Journal of China Coal Society, 1995(3):304- 310.