悬臂抗滑桩加固堆积型滑坡地震响应离心模型试验研究

doi:10.13722/j.cnki.jrme.2015.0306

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摘要为研究悬臂抗滑桩加固堆积型滑坡的地震响应、抗滑桩桩后动土压力和桩身弯矩分布规律，设计完成50倍重力加速度条件下的悬臂抗滑桩加固堆积型滑坡离心振动台模型试验。试验过程中，采用汶川地震清溪台站反演的基岩波作为基底输入，不断增大输入地震波的幅值，通过监测滑坡不同位置加速度响应、抗滑桩桩后动土压力和桩身应变研究不同强度地震动作用下悬臂抗滑桩加固堆积型滑坡的抗震性能。试验结果表明：滑坡土体中加速度响应随高程增加而增大，趋于坡顶时放大效果最大，具有明显的高程放大效应，而滑坡坡面处呈现浅表放大效应；抗滑桩加固使滑体土体响应受到一定限制；桩后动土压力随着地震动的输入迅速增大至峰值，此后保持稳定形成残余动土压力作用于抗滑桩上；抗滑桩各截面动弯矩呈现出凸形分布规律，弯矩最大值出现在基岩面附近处；桩后动土压力和桩身动弯矩均随着地震动强度的增大而增大。所得到的成果为边坡悬臂抗滑桩抗震设计提供良好的基础。

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	涂杰文1
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	郑桐3

关键词 ：工程地质, 悬臂抗滑桩, 堆积型滑坡, 离心振动台, 地震响应

Abstract：Centrifuge shaking table model test of colluvial landslide reinforced by cantilever anti-slide pile was designed and carried out on a centrifuge shaking table at 50 gravitational accelerations in order to research its seismic response，the distribution regularity of dynamic soil pressure after pile and dynamic bending moment of the anti-slide pile. During the processing of the model test，bedrock wave(Qingxi wave) was inputted from the bottom of the model by scaling the amplitude of the input seismic wave. The seismic performance of colluvial landslide reinforced by cantilever anti-slide pile under earthquakes of different intensities is studied by monitoring the acceleration response of landslide at different positions，the dynamic soil pressure after pile and the strain of the anti-slide pile. Results show that the acceleration response of landslide increases with the increasing height of landslide. The landslide shows an obvious elevation amplification effect，i.e.，the increasing rate of the peak ground acceleration(PGA) amplification coefficients becomes notably larger approaching the slope crest，and the acceleration response characteristic of the landslide surface shows the surface effect under earthquake. The dynamic response of the soil is restricted by anti-slide pile to a certain degree. The dynamic soil pressures after pile rapidly increase to peak value and then keep roughly stable along with the excitation of earthquake motion. And they will form dynamic soil pressures to act on the anti-slide pile. The maximum dynamic bending moment of the pile appears near the bedrock surface，which the distribution rule reflects the convex form. Both the dynamic soil pressure after pile and dynamic bending moment of the pile will increase with the increasing the strength of seismic wave. The results provide a good foundation for seismic design of the cantilever anti-slide pile.

Key words： engineering geology cantilever anti-slide pile colluvial landslide centrifuge shaking table seismic response

引用本文:

涂杰文1，刘红帅2，汤爱平1，郑桐3. 悬臂抗滑桩加固堆积型滑坡地震响应离心模型试验研究[J]. 岩石力学与工程学报, 2016, 35(S1): 2925-2934.
TU Jiewen1，LIU Hongshuai2，TANG Aiping1，ZHENG Tong3. Centrifugal model test on seismic response of colluvial landslide reinforced by cantilever anti-slide pile. , 2016, 35(S1): 2925-2934.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2015.0306 或 https://rockmech.whrsm.ac.cn/CN/Y2016/V35/IS1/2925

[1]	WANGL P，ZHANGG. Centrifuge model test study on pile reinforcement behavior of cohesive soil slopes under earthquake conditions[J]. Landslides，2014，11(2)：213-223.
[2]	郑颖人，陈祖煜，王恭先，等.边坡与滑坡工程治理[M].北京：人民交通出版社，2007：394-419.(ZHENG Yingren，CHEN Zhuyu，WANG Gongxian，et al.Engineering treatment of slopeandlandslide[M]. Beijing：China Communications Press，2007：394-419.(in Chinese))
[3]	张永兴，王明珉，刘杰，等.无挡板悬臂式抗滑桩桩间土体稳定性上限分析[J].岩土工程学报，2014，36(1)：118-125.(ZHANGYongxing，WANG Mingmin，LIUJie，et al. Upper bound limit analysisof stability of soils between unbaffled cantilever anti-slide piles[J].Chinese Journal of Geotechnical Engineering，2014，36(1)：118-125.(in Chinese))
[4]	雷庆兰，龚照森. 强震下抗滑桩加固边坡土体的稳定机制及动力响应探讨[J].西华大学学报：自然科学版，2013，32(6)：104-108.(LEI Qinglan，GONG Zhaosen. Study on the stability mechanism and dynamic response of anti-slide pile reinforcing soil slope under a strong earthquake[J].Journal of Xihua University：Natural Science，2013，32(6)：104-108.(in Chinese))
[5]	罗渝，何思明，何尽川.地震作用下抗滑桩作用机制研究[J].长江科学院院报，2010，27(6)：26-29.(LUO Yu，HE Siming，HE Jinchuan. Study on interaction between slope and stabilizing pile under seism loading[J]. Journal of Yangtze River Scientific Research Institute，2010，27(6)：26-29.(in Chinese))
[6]	叶海林，郑颖人，黄润秋，等.强度折减动力分析法在滑坡抗滑桩抗震设计中的应用研究[J].岩土力学，2010，31(增1)：317-323.(YE Hailin，ZHENG Yingren，HUANG Runqiu，et al. Study of application of strength reduction dynamic analysis method to aseismic design of anti-slide piles for landslide[J]. Rock and Soil Mechanics，2010，31(Supp.1)：317-323.(in Chinese))
[7]	叶海林，郑颖人，李安洪，等.地震作用下边坡抗滑桩振动台试验研究[J].岩土工程学报，2012，34(2)：251-257.(YEHailin，ZHENG Yingren，LI Anhong，et al. Shaking table tests on stabilizing piles of slopes under earthquakes[J].Chinese Journal of Geotechnical Engineering，2012，34(2)：251-257.(in Chinese))
[8]	许江波，郑颖人.埋入式抗滑桩振动台模型试验分析[J].岩土工程学报，2012，34(10)：1 896-1 902.(XU Jiangbo，ZHENG Yingren. Shaking table model tests on embedded anti-slide piles[J].Chinese Journal of Geotechnical Engineering，2012，34(10)：1 896-1 902.(in Chinese))
[9]	赖杰，郑颖人，刘云，等.地震作用下双排抗滑桩支护边坡振动台试验研究[J].岩土工程学报，2014，36(4)：680-686.(LAIJie，ZHENG Yingren，LIU Yun，et al. Shaking table tests on double-row anti-slide piles of slopes under earthquakes[J].Chinese Journal of Geotechnical Engineering，2014，36(4)：680-686.(in Chinese))
[10]	姚爱军，史高平，梅超. 悬臂抗滑桩加固边坡地震动力响应模型试验研究[J].岩土力学，2012，33(增2)：53-58.(YAO Aijun，SHI Gaoping，MEI Chao. Experimental model study of seismic response of slope reinforced by cantilever stabilizing piles[J]. Rock and Soil Mechanics，2012，33(Supp.2)：53-58.(in Chinese))
[11]	YUYZ，DENG L J，SUNX，et al. Centrifuge modeling of dynamic behavior of pile-reinforced slopes during earthquakes[J]. Journal of Central South University of Technology，2010，17(5)：1 070-1 078.
[12]	李荣建，于玉贞，李广信. 土质边坡中部与顶部抗滑桩动力响应和边坡变形比较[J].山地学报，2010，28(2)：135-140.(LI Rongjian， YU Yuzhen，LI Guangxin. Analyses of deformation of slope and dynamic response of stabilizing piles reinforced in the middle and near crest of slope in earthquake[J].Journal of Mountain Science，2010，28(2)：135-140.(in Chinese))
[13]	王丽萍，张嘎，张建民，等.抗滑桩加固黏性土坡变形规律的离心模型试验研究[J].岩土工程学报，2009，31(7)：1 075-1 081.(WANG Liping，ZHANG Ga，ZHANG Jianmin，et al. Centrifuge modeling of cohesive soil slopes reinforced by stabilizing piles[J].Chinese Journal of Geotechnical Engineering，2009，31(7)：1 075-1 081.(in Chinese))
[14]	涂杰文，刘红帅，汤爱平，等.基于离心振动台的堆积型滑坡加速度响应特征[J].岩石力学与工程学报，2015，34(7)：1 361-1 369.(TU Jiewen，LIU Hongshuai，TANG Aiping，et al. Acceleration response characteristics of colluvial landslide based on centrifugal shaking table model test[J]. Chinese Journal of Rock Mechanics and Engineering，2015，34(7)：1 361-1 369.(in Chinese))
[15]	刘红帅，王根龙，薄景山.汶川8.0级特大地震汉源背后山滑坡科考报告[R].哈尔滨：中国地震局工程力学研究所，防灾科技学院，2008.(LIU Hongshuai，WANG Genlong，BAO Jingshan.Behind mountain landslide research report in Hanyuan county town during the Wenchuan Ms8.0 earthquake[R]. Haerbin：Institute of Engineering Mechanics，China Earthquake Administration，Institute of Disaster Prevention Science and Technology，2008.(in Chinese))
[16]	刘红帅，杨俊波，薄景山，等.汶川地震汉源县城高烈度异常区基岩地震动输入[J].地震工程与工程振动，2013，33(2)：27-36.(LIUHongshuai，YANGJunbo，BOJingshan，et al.Bedrock ground motion input to high-intensity abnormality area in Hanyuan county town during Wenchuan Ms 8.0 earthquake[J].Journal of Earthquake Engineering and Engineering Vibration，2013，33(2)：27-36.(in Chinese))
[17]	曲宏略，张建经.桩板式抗滑挡墙地震响应的振动台试验研究[J].岩土力学，2013，34(3)：743-750.(QU Honglue，ZHANG Jianjing. Research on seismic response of anti-sliding sheet pile wall by shaking table test[J]. Rock and Soil Mechanics，2013，34(3)：743-750.(in Chinese))