跨海峡海底隧道风化槽围岩力学特性研究

›› 2010, Vol. 31 ›› Issue (12): 3778-3783.

跨海峡海底隧道风化槽围岩力学特性研究

郭小红^{1, 2}，梁巍²，于洪丹³，曹俊杰³，陈卫忠^{3, 4}

1.北京交通大学土木建筑工程学院，北京 100044；2.中交第二公路勘察设计研究院有限公司，武汉 430056； 3.中国科学院武汉岩土力学研究所岩土力学与工程国家重点试验室，武汉 430071；4.山东大学岩土与结构工程研究中心，济南 250061

收稿日期:2010-01-04 出版日期:2010-12-10 发布日期:2010-12-21
作者简介:郭小红，男，1966年生，博士，教授级高级工程师，主要从事隧道及地下工程方面的科研工作。
基金资助:
国家自然科学基金重大国际合作项目（No.50720135906）；国家自然科学基金（No.40772184）；交通运输部行业科技攻关项目资助。

Research on mechanical characteristics of weathered granite for subsea tunnel

GUO Xiao-hong ^{1, 2}, LIANG Wei², YU Hong-dan3, CAO Jun-jie³, CHEN Wei-zhong ^{3, 4}

1. School of Civil Engineering, Beijing Jiaotong University, Beijing 100044, China; 2. CCCC Second Highway Consultants Co., Ltd., Wuhan 430056, China; 3. State Key Laboratory of Geomechanics and Geotechnical Engineering, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan 430071, China; 4. Research Center of Geotechnical and Structural Engineering, Shandong University, Jinan 250061, China

Received:2010-01-04 Online:2010-12-10 Published:2010-12-21

摘要/Abstract

摘要：

厦门海底隧道工程是我国建设的第一条海底公路隧道。隧道在建设过程中穿越F1～F4 四条断层破碎带，破碎带处洞体围岩软弱、破碎，岩石主要为风化破碎类花岗岩，该类岩石尤其是强风化花岗岩强度低，压缩性高，自稳和自承能力差，给隧道衬砌结构的设计和施工工艺的选择带来一系列特殊的问题。通过对风化破碎类花岗岩（主要包括微风化花岗岩和强风化花岗岩）试样进行一系列的室内试验，重点研究风化槽花岗岩的力学行为。强风化花岗岩三轴压缩试验及流变试验表明：强风化花岗岩强度低、变形大、弹性模量低，在达到峰值后，有明显的塑性流动，通过Mohr-Coulomb准则得到强风化花岗岩的摩擦角约为31°，黏聚力约为0.1 MPa，且该岩石具有明显的流变特征。在流变试验的基础上，建立适合风化槽围岩特点的流变力学模型。其研究成果为海底隧道风化槽隧道围岩注浆加固和衬砌设计提供可靠依据和技术支撑。

关键词: 海底隧道, 风化破碎类花岗岩, 室内试验, 流变试验, 流变力学模型

Abstract:

Xiamen subsea tunnel is the first undersea road tunnel in China. The tunnel passes through the weathered strata F1, F2, F3 and F4 where the rock mass is weathered and fragmented, the main rock in this region is weathered and fragmented granite. The main mechanical characteristics of this kind of rock especially the strongly weathered granite is low strength, high compressibility, self-stability and bearing capacity of the rock is poor; it brings many exceptional problems to the liner design and the tunnel construction technology. In order to study the mechanical characteristics of the host rock in weathered strata, a series of laboratory tests for the rock including slightly weathered granite and strongly weathered granite have been carried out; the triaxial test results containing triaxial compression test and creep test of strongly weathered granite show that this kind of rock has the properties of low strength, large deformation and low elastic modulus; plastic flow will occur after the stress-strain curve reach the peak; and also the friction angle and cohesion are determined as about 31°and 0.1 MPa respectively through Mohr-Coulomb criterion; more over, high creep potentials of strongly weathered granite is shown through the triaxial creep test. Based on the triaxial test results, a rheological mechanics model suitable for host rock in strongly weathered strata was established through the creep test results. The results obtained from the research work are useful for soft rock engineering especially for weathered granite engineering, and it has guiding effect on the tunnels’ design and construction for this kind of rock.

Key words: subsea tunnel, weathered and fragmented granite, laboratory test, creep test, rheological mechanics model

中图分类号:

U 452

郭小红，梁巍，于洪丹，曹俊杰，陈卫忠. 跨海峡海底隧道风化槽围岩力学特性研究[J]. , 2010, 31(12): 3778-3783.

GUO Xiao-hong, LIANG Wei, YU Hong-dan, CAO Jun-jie, CHEN Wei-zhong. Research on mechanical characteristics of weathered granite for subsea tunnel[J]. , 2010, 31(12): 3778-3783.

参考文献

相关文章 15

[1]	王培涛, 黄正均, 任奋华, 章亮, 蔡美峰, . 基于3D打印的含复杂节理岩石直剪特性及破坏机制研究[J]. 岩土力学, 2020, 41(1): 46-56.
[2]	刘泉声, 罗慈友, 陈自由, 刘鹤, 桑昊旻, 万文恺, . 现场岩体三轴流变试验设备研制[J]. 岩土力学, 2018, 39(S2): 473-479.
[3]	范宁，年廷凯，赵维，鲁双，宋雷，印萍,. 海底泥流的流变试验及强度模型[J]. , 2018, 39(9): 3195-3202.
[4]	张聪，梁经纬，张箭，阳军生，张贵金，叶新田,. 基于脉动注浆的宾汉流体渗透扩散机制研究[J]. , 2018, 39(8): 2740-2746.
[5]	王俊，王闯，何川，胡雄玉，江英超，. 砂卵石地层土压盾构掘进掌子面稳定性室内试验与三维离散元仿真研究[J]. , 2018, 39(8): 3038-3046.
[6]	赵明华，唐咸力，肖尧，杨超炜. 考虑厚跨比的基桩下伏溶洞顶板冲切特性试验研究[J]. , 2018, 39(4): 1159-1167.
[7]	杨海朋，白冰，聂庆科,. 赤泥渗沥液对黏性土和固化赤泥影响的试验研究[J]. , 2017, 38(S1): 299-304.
[8]	孙凯强，唐朝生，刘昌黎，李昊达，王鹏，冷挺. 土体龟裂研究方法[J]. , 2017, 38(S1): 11-26.
[9]	喻豪俊，彭社琴，赵其华，吴浩，丁梓涵，穆红海, . 斜坡碎石土地基水平抗力系数研究[J]. , 2017, 38(6): 1682-1687.
[10]	陈育民，王睿，张艳萍, . 饱和悬浮塑料砂流动特性的试验研究[J]. , 2017, 38(1): 67-74.
[11]	储亚，查甫生，刘松玉，蔡国军，寇博,. 基于电阻率法的膨胀土膨胀性评价研究[J]. , 2017, 38(1): 157-164.
[12]	温勇，杨光华，汤连生，徐传堡，黄致兴，黄忠铭，张玉成, . 广州地区花岗岩残积土力学特性试验及参数研究[J]. , 2016, 37(S2): 209-215.
[13]	赵娜，周密，何晓民. 掺砾黏土样的大型三轴流变特性试验研究[J]. , 2015, 36(S1): 423-429.
[14]	邓亚虹，李丽，慕焕东，王鹏，李飞霞，. 西安地区地裂缝带Q3原状黄土流变特性试验研究[J]. , 2015, 36(7): 1847-1855.
[15]	王延平，许强，郑光，郑海君,. 速度倒数法滑坡预警模型流变试验研究[J]. , 2015, 36(6): 1606-1614.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed