Sensitivity Analysis of Stability Influential Factors of
New Assembled Retaining Wall

doi:10.3969/j.issn.1674-0696.2021.09.14

Abstract

Abstract: Compared with the traditional gravity retaining wall, the new assembled retaining wall has the advantages such as small self-weight, low requirements for foundation bearing capacity, strong adaptability, saving materials and short construction time, and can achieve the purposes of energy saving, water saving, material saving and environmental protection. It is an important direction of retaining wall design and research. Compared with the traditional gravity retaining wall, the deformation and stability problems caused by the reduction of wall self-weight and the splicing of assembly structure needed to be considered more. Therefore, the stability of assembled retaining wall was focused and discussed. Firstly, based on the study of the stability of the traditional gravity retaining wall, the inclined wall back retaining wall was taken as an example, and the relevant safety coefficients of the retaining wall were calculated according to the norm. And then the sensitivity analysis method was used to analyze the effects of the bulk density of the filler in the wall, the internal friction angle of the backfill and the inclination angle of the wall back on the stability of the new assembled retaining wall one by one. Finally, the influence degree of various factors on the stability of retaining wall was studied, and the main factors affecting the stability of retaining wall were found out. The problems that should be paid attention to in the design of the new type of assembly inclined wall back retaining wall are put forward, which provides a certain basis for the design of the new assembled retaining wall.

Key words: hydraulic engineering; new assembled retaining wall; stability; safety factor; influencing factors; sensitivity

摘要： 新型装配式挡土墙相比于传统重力式挡土墙有自重小、地基承载力要求低、适应性强、用料节省、施工时间短等优势，且可实现节能、节水、节材和环保的目的，是挡土墙设计研究的重要方向。相对于传统重力式挡土墙，装配式挡土墙需要更多地考虑墙体自重的减小、装配结构的拼接等导致的变形及稳定性问题，因此重点对装配式挡土墙稳定性问题进行了探讨。首先在对传统重力式挡土墙稳定性研究的基础上，以倾斜式墙背挡土墙为例，按照规范规定计算了挡土墙的相关安全系数；继而利用敏感度分析的方法，逐个分析了墙中填料的容重、墙后填土内摩擦角和墙背倾角在新型装配式挡土墙稳定性中所起的作用；最后分析了各因素对挡土墙稳定性的影响程度，找出了影响挡土墙稳定性的主要因素，并提出了新型装配式斜墙背挡土墙设计中应当注意的各种问题，为新型装配式挡土墙的设计提供了一定的依据。

关键词: 水利工程；装配式挡土墙；稳定性；安全系数；影响因素；敏感度

CLC Number:

TV31

WU Guoyin1, WANG Kui1, YI Pengying2, LI Ke2. Sensitivity Analysis of Stability Influential Factors of New Assembled Retaining Wall[J]. Journal of Chongqing Jiaotong University(Natural Science), 2021, 40(09): 92-100.

吴国印1,汪魁1,易朋莹2,李珂2. 新型装配式挡土墙稳定性影响因素敏感度分析[J]. 重庆交通大学学报（自然科学版）, 2021, 40(09): 92-100.

References

［1］赵其华，彭社琴. 岩土支挡与锚固工程［M］. 成都:四川大学出版社，2013: 10-11.
ZHAO Qihua, PENG Sheqin. Retaining and Anchor Engineering for Rock & Soil Mass［M］. Chengdu: Sichuan University Press, 2013: 10-11.
［2］中交第二公路勘察设计研究院有限公司. 公路路基设计规范: JTG D30—2015［S］. 北京:人民交通出版社，2015.
CCCC Second Highway Survey Design and Research Institute Co., Ltd.. Specifications for Design of Highway Subgrades: JTG D30-2015［S］. Beijing: China
Communications Press, 2015.
［3］中交第三公路工程局有限公司. 公路路基施工技术规范: JTG/T 3610—2019［S］. 北京:人民交通出版社，2019.
CCCC Third Highway Engineering Bureau Co., Ltd.. Technical Specifications for Construction of Highway Subgrades:JTG/T 3610-2019［S］. Beijing: China Communications
Press, 2019.
［4］中交第二公路勘察设计研究院有限公司. 公路挡土墙设计与施工技术细则［M］. 北京: 人民交通出版社，2008.
CCCC Second Highway Survey Design and Research Institute Co., Ltd.. Technical Guidelines for Design and Construction of Highway Retaining Walls［M］. Beijing: China
Communications Press, 2008.
［5］石中柱，张文清. 预制钢筋混凝土折板挡土墙的设计与施工［J］. 市政技术，1982(1): 6-13.
SHI Zhongzhu, ZHANG Wenqing. Design and construction of precast reinforced concrete folding retaining wall［J］. Municipal Engineering Technology, 1982(1): 6-13.
［6］赵御祺. 悬臂式薄壳挡土墙［J］. 建筑结构，1981(6): 60-61.
ZHAO Yuqi. Cantilever thin-shell retaining wall［J］. Building Structure, 1981(6): 60-61.
［7］曾向荣. 部分预制装配式钢筋混凝土挡土墙在城市轨道交通工程中的应用技术［J］. 地铁与轻轨，2001 (4): 24-27.
ZENG Xiangrong. Technology of some precast reinforced concrete retaining wall applied in the urban rail transit engineering ［J］. Metro and Light Rail, 2001(4): 24-27.
［8］张程宏. 装配式挡土墙设计特点及其在市政道路中的应用［J］. 城市道桥与防洪，2012 (4): 30-32, 270.
ZHANG Chenghong. Design features of prefabricated retaining wall and its application in municipal roads［J］. Urban Roads Bridges & Flood Control, 2012(4): 30-32, 270.
［9］纪文利，唐广辉. 装配式钢筋混凝土挡土墙的设计与施工［J］. 铁道标准设计，2003(10): 111-112.
JI Wenli, TANG Guanghui. Design and construction of assembly reinforced concrete retaining wall ［J］. Railway Standard Design, 2003 (10): 111-112.
［10］段铁铮. 装配式挡土墙标准化及系列化问题探讨［J］. 特种结构，2004，21(3): 79-81.
DUAN Tiezheng. Discussion of assembly retaining wall for standardization and series ［J］. Special Structures, 2004, 21(3): 79-81.
［11］刘景涛，王亮，丁平，等. 预制装配式挡土墙施工关键技术研究［J］. 城市道桥与防洪，2019 (7): 201-204.
LIU Jingtao, WANG Liang, DING Ping, et al. Research on key technologies for construction of prefabricated retaining wall［J］. Urban Roads Bridges & Flood Control,
2019 (7): 201-204.
［12］徐健，刘泽，黄天棋，等. 装配式挡土墙设计与施工的关键问题研究［J］. 城市建设理论研究(电子版)，2018 (6): 88-91.
XU Jian, LIU Ze, HUANG Tianqi, et al. Research on the key problems of the design and construction of the assembled retaining wall［J］. Theoretical Research in Urban
Construction, 2018(6): 88-91.
［13］周晓靖. 装配式外阶梯型钢筋混凝土生态挡土墙研究［J］. 华东公路，2017 (5): 101-102.
ZHOU Xiaojing. Research on prefabricated external stepped reinforced concrete ecological retaining wall［J］. East China Highway, 2017 (5): 101-102.
［14］张昕升，韩晓云，蒋楚生. 浅谈新型装配式绿化挡土墙［J］. 四川建筑，2019，39(2): 285-287.
ZHANG Xinsheng, HAN Xiaoyun, JIANG Chusheng. Talking about the new assembled green retaining wall［J］. Sichuan Architecture, 2019, 39(2): 285-287.
［15］李纯玉. 重力式挡土墙稳定性影响因素分析研究［J］. 工程勘察, 2014 (5): 21-25.
LI Chunyu. Study on the stability influence factors of gravity retaining wall［J］. Geotechnical Investigation ＆ Surveying, 2014 (5): 21-25.
［16］杜永峰，余钰，李慧. 挡土墙稳定性安全系数与可靠度指标的关系［J］. 兰州理工大学学报，2008，34(3): 113-116.
DU Yongfeng, YU Yu, LI Hui. Relationship between safety factor and reliability index of retaining wall s stability［J］. Journal of Lanzhou University of Technology, 2008
，34(3): 113-116.
［17］牛晨亮. 仰斜式挡土墙影响因素的敏感度分析［J］. 路基工程，2018(5): 55-58.
Niu Chenliang. Analysis on sensitivity of influencing factors on oblique retaining wall ［J］. Subgrade Engineering, 2018 (5): 55-58.
［18］毕小勇，闫天俊，鲁杰. Midas-GTS(SRM)在边坡二维稳定性分析中的运用［J］. 自然灾害学报，2015，24(1): 170-176.
BI Xiaoyong, YAN Tianjun, LU Jie. Application of Midas-GTS(SRM) to 2D stability analysis of slope［J］. Journal of Natural Disasters, 2015, 24(1):170-176.
［19］王建林. 重力式砌石挡土墙的因素敏感性计算分析［J］. 路基工程，2012(3): 20-23.
WANG Jianlin. Calculation and analysis on factor sensitivity of gravity masonry retaining wall ［J］. Subgrade Engineering, 2012 (3): 20-23.
［20］赵明阶，何光春，王多垠.边坡工程处治技术［M］.北京:人民交通出版社，2004: 84-86.
ZHAO Mingjie, HE Guangchun, WANG Duoyin. Slope Engineering Treatment Technology［M］. Beijing: China Communications Press, 2004: 84-86.
［21］黄岳文. 挡土墙沿基底面抗滑稳定计算的讨论［J］. 人民黄河，2016，38(2): 108-113.
HUANG Yuewen. Discussion on stability against sliding for retaining wall along the base surface［J］. Yellow River, 2016, 38(2): 108-113.
［22］姚存锴，吴钊. 关于挡土墙抗倾覆稳定性的计算［J］. 西北水电，2016(5): 20-23.
YAO Cunkai, WU Zhao. Calculation of stability against overturning of retaining wall［J］. Northwest Water Power, 2016(5): 20-23.
［23］宋雅坤，郑颖人，刘一通，等.土工格栅加筋土挡墙稳定性影响因素敏感性分析［J］.后勤工程学院学报，2010，26(3): 1-7.
SONG Yakun, ZHENG Yingren, LIU Yitong, et al. The sensibility analysis of influencing factors of the paddle slope stability［J］. Journal of Logistical Engineering University,
2010, 26(3): 1-7.
［24］许建聪，尚岳全.碎石土滑坡的因素敏感性计算分析［J］.岩土力学，2007，28(10): 2046-2051.
XU Jiancong, SHANG Yuequan. Sensitivity analysis of influencing factors of debris landslide［J］. Rock and Soil Mechanics, 2007, 28(10): 2046-2051.
［25］周东升，杨凤芸. 基于正交试验的边坡稳定性影响因素敏感度分析［J］.煤炭技术，2018，37(1): 147-149.
ZHOU Dongsheng, YANG Fengyun. Sensitivity analysis of influencing factors in slope stability analysis based on orthogonal test［J］. Coal Technology, 2018, 37(1): 147-
149.
［26］尹作华. 重力式挡土墙稳定性影响因素敏感性分析［J］. 科学技术创新，2018 (31): 95-96.
YIN Zuohua. Sensitivity analysis of factors affecting stability of gravity retaining wall［J］. Scientific and Technological Innovation, 2018 (31): 95-96.
［27］柴波，殷坤龙，汪洋，等. 基于影响因素分布模型的滑坡稳定性敏感分析［J］. 岩土力学，2007,28(2): 2624-2628.
CHAI Bo, YIN Kunlong, WANG Yang, et al. Sensitivity analysis of landslide stability based on distribution models of influencing factors［J］. Rock and Soil Mechanics, 2007,
28(2): 2624-2628.
［28］洪利，仉文岗. 渐近搜索算法在软土基坑基底抗隆起上限分析中的应用［J］. 土木与环境工程学报，2020, 42(6): 46-53.
HONG Li, ZHANG Wengang. Application of progressive search algorithm in upper bound analysis of basal stability for braced excavations in soft clay［J］. Journal of Civil
and Environmental Engineering, 2020, 42(6): 46-53.
［29］ ZHANG W G, GOH A T C, GOH K H, et al. Performance of braced excavation in residual soil with groundwater drawdown［J］. Underground Space, 2018, 3(2): 150
-165.
［30］ GOH A T C, ZHANG F, ZHANG W G, et al. Assessment of strut forces for braced excavation in clays from numerical analysis and field measurements［J］.
Computers and Geotechnics, 2017, 86: 141-149.
［31］ ZHANG W G, HOU Z J, GOH A T C, et al. Estimation of strut forces for braced excavation in granular soils from numerical analysis and case histories［J］.
Computers and Geotechnics, 2019, 106: 286-295.

[1]	XIE Zhiqiang1, 2, FU Zhi1, 2, LV Xingdong1, 2. Solar Radiation Simulation Method for Hydraulic Concrete Structure [J]. Journal of Chongqing Jiaotong University(Natural Science), 2019, 38(11): 82-89.
[2]	WANG Kui1, 2, LIU Huan1，LUO Ying3, 4. Optimization Diversion Tunnel Plug Design Based on Reliability Theory [J]. Journal of Chongqing Jiaotong University(Natural Science), 2018, 37(11): 52-57.
[3]	WANG Risheng1, 2, ZHAO Mingjie1. Coupling Analysis of Seepage Field and Stress Field of Compressible Skeleton Earth-Rock Dams [J]. Journal of Chongqing Jiaotong University(Natural Science), 2017, 36(9): 61-65.
[4]	HE Linlin，LIU Yang，DENG Xiao. Finite Element Analysis on Working Behavior for Group Pile Foundation in All-Vertical-Piled Wharf in Offshore Deep-Water [J]. Journal of Chongqing Jiaotong University(Natural Science), 2016, 35(5): 79-84.
[5]	Wang Kui, Zhao Mingjie. Characteristics and Application of Electrical Resistivity of Soil-Stone Composite Medium [J]. Journal of Chongqing Jiaotong University(Natural Science), 2014, 33(2): 90-94.

Sensitivity Analysis of Stability Influential Factors of New Assembled Retaining Wall

新型装配式挡土墙稳定性影响因素敏感度分析

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 5

Recommended Articles

Metrics