(1. School of Civil Engineering,Central South University,Changsha,Hunan 410075,China;2. China Railway 14th Bureau Group Tunnel Engineering Co.,Ltd.,Jinan,Shandong 250000,China;3. School of Hydraulic Engineering,Changsha University
of Science and Technology,Changsha,Hunan 410114,China)
Abstract:Treatment to the loose strata,such as the excavation(drilling) and backfilling,the pressure grouting and the jet grouting reinforcement etc,should be undertaken to ensure the safety of shield tunneling. A double-controlled grouting method was proposed with two kinds of controllable slurries(controllable filling and controllable cement paste slurry) based on the controllable characteristics of traditional grouting process through sleeve valve tube. The proposed method is very handy to operate in practice and easy to lift the pipe. The range of reinforcement is controllable and the appropriate strength of reinforced solid can be achieved. The diffusion equation of the controllable grout in soil strata was derived and a formula for the slurry control in grouting process was derived according to the operating principle of double-controlled grouting. The method was applied to the shield tunneling in loose strata of a river-crossing project successfully. The results of the study and application show that the continuity and integrity of stratum is improved significantly after the grouting treatment. The drilling process of inspection hole is carried out smoothly in reinforced area,the core samples have the structural integrity and the compressive strength and permeability coefficient of the samples meet the design requirements of reinforced solids after 28 days. To achieve the optimum effect of grouting,a single injection height should be controlled within 15 m,the distance of radial diffusion should be less than 25% of the distance between the arrayed holes,the plastic strength of the controllable filling should be controlled in 0.3 MPa to 0.5 MPa.
[1] 刘汉龙,赵明华. 地基处理研究进展[J]. 土木工程学报,2016,49(1):96–115.(LIU Hanlong,ZHAO Minghua. Review of ground improvement technical and its application in China[J]. China Civil Engineering Journal,2016,49(1):96–115.(in Chinese))
[2] 娄吉宏,于 淼,胡桂娟. 袖阀管注浆法在广州白云国际机场飞行区溶洞处理工程中的应用[J]. 广西大学学报:自然科学版,2005,30(1):17–21.(LOU Jihong,YU Miao,HU Guijuan. Application of pouring starch about the tube in processing of dissolving the hole in the engineering of the flying area at Baiyun international airport of Guangzhou[J]. Journal of Guangxi University,2005,30(1):17–21.(in Chinese))
[3] 黄 焰,伍永胜. 岩溶地区城市地下浅埋隧道工程技术研究[J]. 土木工程学报,2005,38(8):107–113.(HUANG Yan,WU Yongsheng. Engineering techniques for construction of shallow underground tunnels in urban karst regions[J]. China Civil Engineering Journal,2005,38(8):107–113.(in Chinese))
[4] 魏晨亮,王玉卿,唐高洪. 南宁地区富水圆砾层袖阀管注浆加固技术[J]. 隧道建设,2014,34(5):499–502.(WEI Chenliang,WANG Yuqing,TANG Gaohong. Case study on consolidation of water-rich cobble ground in Nanning by means of soletanche grouting[J]. Tunnel Construction,2014,34(5):499–502.(in Chinese))
[5] 孙金库,冉懋鸽. 不良地质洞段高压固结注浆处理[J]. 岩石力学与工程学报,2004,23(18):3 196–3 202.(SUN Jinku,RAN Maoge. High pressure consolidation grouting for tunnel sections with unfavorable geology condition[J]. Chinese Journal of Rock Mechanics and Engineering,2004,23(18):3 196–3 202.(in Chinese))
[6] 罗长军. 帷幕注浆技术在既有土坝可溶岩坝基中的应用[J]. 岩石力学与工程学报,2004,23(22):3 910–3 916.(LUO Changjun. Application of curtain grouting to the soluble rock foundation of existing soil dam of wanghuating reservoir[J]. Chinese Journal of Rock Mechanics and Engineering,2004,23(22):3 910–3 916.(in Chinese))
[7] 刘慧霞,把多铎. 岩溶地区坝基渗水堵漏注浆[J]. 水资源与水工程学报,2009,20(4):127–128.(LIU Huixia,BA Duoduo. Sealing grout for dam foundation seepage in karst areas[J]. Journal of Water Resources and Water Engineering,2009,20(4):127–128.(in Chinese))
[8] 符 平,王廷勇,郑亚平,等. 土工模袋灌浆研究与应用[J]. 水利与建筑工程学报,2004,2(1):11–13.(FU Ping,WANG Tingyong,ZHENG Yaping,et al. Research and application of fabric grouting[J]. Journal of Water Resources and Architectural Engineering,2004,2(1):11–13.(in Chinese))
[9] 张贵金,许毓才,陈安重,等. 一种适合松软地层高效控制注浆的新工法——自下而上、浆体封闭、高压脉动注浆[J]. 水利水电技术,2012,43(3):38–41.(ZHANG Guijin,XU Yucai,CHEN Anzhong,et al. A new technical method for efficient and control grouting for loose ground-high pulsating pressure grouting from bottom to up stemming with slurry[J]. Water Resources and Hydropower Engineering,2012,43(3):38–41.(in Chinese))
[10] 盛松涛,张贵金,陈安重. 托口水电站河湾地块帷幕灌浆新工艺的施工实践[J]. 水利水电技术,2014,45(8):108–111.(SHENG Songtao,ZHANG Guijin,CHEN Anzhong. Construction practice of a new curtain grouting technology for river-bending block in site of Tuokou Hydropower Station[J]. Water Resources and Hydropower Engineering,2014,45(8):108–111.(in Chinese))
[11] 杨秀竹,王星华,雷金山. 宾汉体浆液扩散半径的研究及应用[J]. 水利学报,2004,35(6):75–79.(YANG Xiuzhu,WANG Xinghua,LEI Jinshan. Study on grouting diffusion radius of Bingham fluids[J]. Journal of Hydraulic Engineering,2004,35(6):75–79.(in Chinese))
[12] 孙 锋,陈铁林,张顶立,等. 基于宾汉体浆液的海底隧道劈裂注浆机制研究[J]. 北京交通大学学报,2009,33(4):1–6.(SUN Feng,CHEN Tielin,ZHANG Dingli,et al. Study on fracture grouting mechanism in subsea tunnel based on Bingham fluids[J]. Journal of Beijing Jiaotong University,2009,33(4):1–6.(in Chinese))
[13] 李术才,张伟杰,张庆松,等. 富水断裂带优势劈裂注浆机制及注浆控制方法研究[J]. 岩土力学,2014,35(3):746–748.(LI Shucai,ZHANG Weijie,ZHANG Qingsong,et al. Research on advantage- fracture grouting mechanism and controlled grouting method in water-rich fault zone[J]. Rock and Soil Mechanics,2014,35(3):746–748.(in Chinese))
[14] 张忠苗,邹 建. 桩底劈裂注浆扩散半径和注浆压力研究[J]. 岩土工程学报,2008,30(2):181–185.(ZHANG Zhongmiao,ZOU Jian. Penetration radius and grouting pressure in fracture grouting[J]. Chinese Journal of Geotechnical Engineering,2008,30(2):181–185.(in Chinese))
[15] 曾祥熹. 泥浆流变学与黏度测量[R]. 长沙:湖南地质学会,1981:63–82.( ZENG Xiangxi. Mud rheology and viscosity measurement[M]. Chnagsha:The Geological Society of Hunan,1981:63–82.(in Chinese))