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Differential uplift and settlement between inner column and diaphragm wall in top-down excavation 被引量:5
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作者 王丽 郑刚 欧若楠 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第9期3578-3590,共13页
Top structure and basement will confront the risk of being damaged on account of large stress and strain fields incurred by differential uplift and settlement between inner column and diaphragm wall in top-down method... Top structure and basement will confront the risk of being damaged on account of large stress and strain fields incurred by differential uplift and settlement between inner column and diaphragm wall in top-down method. Top-down excavation of the Metro Line 10 in Shanghai was modeled with finite element analysis software ABAQUS and parameters of subsoil were obtained by inverse analysis. Based on the finite element model and parameters, changes in the following factors were made to find more effective methods to restrain differential uplift and settlement: length of diaphragm wall, thickness of jet-grouting reinforcement layer, ways of subsoil reinforcement, sequence of pit excavation, connection between slabs and diaphragm wall or column and width of pit. Several significant results are acquired. The longer the diaphragm wall is, the greater the differential uplift between column and diaphragm wall is. Rigidity of roof slab is in general not strong enough to keep diaphragm wall and column undergoing the same uplift during excavation; Uplift at head of column and differential uplift between column and diaphragm wall decrease when subsoil from-16.6 to-43 m in pit is reinforced through jet-grouting. But, as excavation proceeds to a lower level, benefit from soil reinforcement diminishes. During the process applying vertical load, the larger the depth of diaphragm wall is, the smaller the settlement is at head of column and diaphragm wall, and the greater the differential settlement is between column and diaphragm wall. When friction connection is implemented between column, diaphragm wall and floor slabs, uplifts at head of column and diaphragm wall are larger than those of the case when tie connection is implemented, and so does differential uplift between column and diaphragm wall. The maximum deflection of diaphragm wall decreases by 58% on account of soil reinforcement in pit. The maximum deflection of diaphragm wall decreases by 61.2% when friction connection is implemented instead of tie connection. 展开更多
关键词 top-down method differential uplift differential settlement jump-layer excavation diaphragm wall with outriggers
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Optimized functional linked neural network for predicting diaphragm wall deflection induced by braced excavations in clays 被引量:4
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作者 Chengyu Xie Hoang Nguyen +1 位作者 Yosoon Choi Danial Jahed Armaghani 《Geoscience Frontiers》 SCIE CAS CSCD 2022年第2期34-51,共18页
Deep excavation during the construction of underground systems can cause movement on the ground,especially in soft clay layers.At high levels,excessive ground movements can lead to severe damage to adjacent structures... Deep excavation during the construction of underground systems can cause movement on the ground,especially in soft clay layers.At high levels,excessive ground movements can lead to severe damage to adjacent structures.In this study,finite element analyses(FEM)and the hardening small strain(HSS)model were performed to investigate the deflection of the diaphragm wall in the soft clay layer induced by braced excavations.Different geometric and mechanical properties of the wall were investigated to study the deflection behavior of the wall in soft clays.Accordingly,1090 hypothetical cases were surveyed and simulated based on the HSS model and FEM to evaluate the wall deflection behavior.The results were then used to develop an intelligent model for predicting wall deflection using the functional linked neural network(FLNN)with different functional expansions and activation functions.Although the FLNN is a novel approach to predict wall deflection;however,in order to improve the accuracy of the FLNN model in predicting wall deflection,three swarm-based optimization algorithms,such as artificial bee colony(ABC),Harris’s hawk’s optimization(HHO),and hunger games search(HGS),were hybridized to the FLNN model to generate three novel intelligent models,namely ABC-FLNN,HHO-FLNN,HGS-FLNN.The results of the hybrid models were then compared with the basic FLNN and MLP models.They revealed that FLNN is a good solution for predicting wall deflection,and the application of different functional expansions and activation functions has a significant effect on the outcome predictions of the wall deflection.It is remarkably interesting that the performance of the FLNN model was better than the MLP model with a mean absolute error(MAE)of 19.971,root-mean-squared error(RMSE)of 24.574,and determination coefficient(R^(2))of 0.878.Meanwhile,the performance of the MLP model only obtained an MAE of 20.321,RMSE of 27.091,and R^(2)of 0.851.Furthermore,the results also indicated that the proposed hybrid models,i.e.,ABC-FLNN,HHO-FLNN,HGS-FLNN,yielded more superior performances than those of the FLNN and MLP models in terms of the prediction of deflection behavior of diaphragm walls with an MAE in the range of 11.877 to 12.239,RMSE in the range of 15.821 to 16.045,and R^(2)in the range of 0.949 to 0.951.They can be used as an alternative tool to simulate diaphragm wall deflections under different conditions with a high degree of accuracy. 展开更多
关键词 diaphragm wall deflection Braced excavation Finite element analysis Clays Meta-heuristic algorithms Functional linked neural network
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Test and Analysis of an Existing Tunnel Vibration Induced by Blasting Construction of Diaphragm Wall 被引量:1
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作者 于光喜 禹海涛 +4 位作者 柳献 袁勇 王庆国 程国荣 吴晓峰 《Transactions of Tianjin University》 EI CAS 2008年第B10期569-575,共7页
According to the blasting construction of the diaphragm wall of Puxi approaching section of East Fuxing Road river-crossing tunnel, the monitoring project of the vibration of the existing tun-nel induced by the blasti... According to the blasting construction of the diaphragm wall of Puxi approaching section of East Fuxing Road river-crossing tunnel, the monitoring project of the vibration of the existing tun-nel induced by the blasting construction is put forward, which includes the sensors’ location, moni-tor method and the vibration monitoring system. Based on the monitoring data of the explosion vibration, the vibration wave forms, velocities, acceleration responses, main frequencies and fields of measure points are analyzed under the conditions of three locations and different charge quanti-ties. According to the safety-judging standard of explosion vibration, the conclusion that the exist- ing tunnel is safe under the explosion vibration is then drawn. Furthermore, the spectrum character-istics of three explosion vibrations and the spectrum changing properties of explosion vi-bration wave transmitting in different directions are concluded, which can provide reference to similar projects. 展开更多
关键词 diaphragm wall explosion vibration vibration monitoring TUNNEL spectrum properties
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Construction of an ultra-deep diaphragm wall:a case study
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作者 SUN Jie ZHANG Zi-xin +1 位作者 HUANG Xin JU Xin 《Journal of Chongqing University》 CAS 2018年第1期1-16,共16页
This paper presents a case study on an ultra-deep diaphragm wall with a depth of 110 m constructed in Ningbo City. The in-situ application shows that using Bauer BC40 cutter machine in conjunction with cutter wheels s... This paper presents a case study on an ultra-deep diaphragm wall with a depth of 110 m constructed in Ningbo City. The in-situ application shows that using Bauer BC40 cutter machine in conjunction with cutter wheels specified for different strata would be qualified for constructing the 110 m diaphragm wall with high efficiency and precision given that the quality of slurry and poured concrete can be guaranteed. The ground settlement can be effectively controlled by using the overlapping construction method. Sliding failure as a whole characterized by pronounced lateral deformation is likely to occur in the upper muddy clay layer due to its high compressibility and sensitivity. In contrast, local collapse of trench walls tends to happen in the sandy silt strata. Furthermore, careful attention should be paid to sandy silt during the entire construction period as the vertical displacement of the sandy silt continues to develop even atter concrete pouring. 展开更多
关键词 diaphragm wall soft soil quality control SETTLEMENT overlapping method trench cutter BC40
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Numerical analysis of effect of friction between diaphragm wall and soil on braced excavation 被引量:1
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作者 刁钰 郑刚 《Journal of Central South University》 SCIE EI CAS 2008年第S2期81-86,共6页
A plane strain finite element model was established to investigate the effect of friction between diaphragm wall and soil on braced excavation. The behavior of interface between diaphragm wall and soil was simulated w... A plane strain finite element model was established to investigate the effect of friction between diaphragm wall and soil on braced excavation. The behavior of interface between diaphragm wall and soil was simulated with the interface model of ABAQUS. Parametric studies were conducted with different diaphragm wall external friction angles δ. The results show that deflection of diaphragm wall and ground surface settlement decrease with the decrease of δ. However, the reduction effect on diaphragm wall deflection is the most significant at the depth where the maximum wall deflection occurs and can be neglected at the wall base. The ratio between wall deep inward component and wall cantilever component reaches its peak value 2.7 when δ=5°. The ratio of the maximum ground surface settlement to the maximum wall lateral deflection decreases at a reduced rate with the increase of δ. For excavation with braced diaphragm wall, the effect of friction between diaphragm and soil on the deflection of diaphragm wall and ground settlement, especially the distribution of ground surface settlement behind diaphragm, should be taken into account. 展开更多
关键词 EXCAVATION diaphragm wall FRICTION DEFLECTION ground SETTLEMENT FEM
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Seismic and vibration control of segmented isolation layer in underground structure-diaphragm wall system
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作者 Zhidong Gao Mingbo Li +1 位作者 Mi Zhao Xiuli Du 《Underground Space》 SCIE EI CSCD 2024年第6期72-86,共15页
In this paper,a seismic and vibration reduction measure of subway station is developed by setting a segmented isolation layer between the sidewall of structure and the diaphragm wall.The segmented isolation layer cons... In this paper,a seismic and vibration reduction measure of subway station is developed by setting a segmented isolation layer between the sidewall of structure and the diaphragm wall.The segmented isolation layer consists of a rigid layer and a flexible layer.The rigid layer is installed at the joint section between the structural sidewall and slab,and the flexible layer is installed at the remaining sections.A diaphragm wall-segmented isolation layer-subway station structure system is constructed.Seismic and vibration control performance of the diaphragm wall-segmented isolation layer-subway station structure system is evaluated by the detailed numerical analysis.Firstly,a three-dimensional nonlinear time-history analysis is carried out to study the seismic response of the station structure by considering the effect of different earthquake motions and stiffness of segmented isolation layer.Subsequently,the vibration response of site under training loading is also studied by considering the influence of different train velocities and stiffness of the segmented isolation layer.Numerical results demonstrate that the diaphragm wall-segmented isolation layer-subway station structure system can not only effectively reduce the lateral deformation of station structure,but also reduce the tensile damage of the roof slab.On the other hand,the developed reduction measure can also significantly reduce the vertical peak displacements of site under training loading. 展开更多
关键词 Subway station diaphragm wall Segmented isolation layer Seismic response Train vibration
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Numerical Modeling of Ground Response during Diaphragm Wall Construction 被引量:20
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作者 丁勇春 王建华 《Journal of Shanghai Jiaotong university(Science)》 EI 2008年第4期385-390,共6页
Construction of diaphragm wall panels may cause considerable stress changes in heavily overconsol- idated soil deposits and can induce substantial ground movement. The 3D Lagrangian method was adopted to model the mec... Construction of diaphragm wall panels may cause considerable stress changes in heavily overconsol- idated soil deposits and can induce substantial ground movement. The 3D Lagrangian method was adopted to model the mechanical response of ground, including horizontal normal stress and shear stress, lateral ground displacement and vertical ground surface settlement, during the slurry trenching and concreting of diaphragm wall panels. Numerical results show that slurry trenching leads to horizontal stress relief of ground, reducing the horizontal stress of the ground from initial K0 pressure to hydrostatic betonite pressure. Wet concrete pressure lies between the hydrostatic bentonite pressure and the initial K0 pressure, so it can compensate partially the horizontal stress loss of the ground adjacent to the trench and thus reduce the lateral movement of the trench face as well as the vertical settlement of the ground surface. 展开更多
关键词 diaphragm wall slurry trenching stress relief ground surface settlement
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The behavior of a rectangular closed diaphragm wall when used as a bridge foundation 被引量:14
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作者 Qiangong CHENG Jiujiang WU +1 位作者 Zhang SONG Hua WEN 《Frontiers of Structural and Civil Engineering》 SCIE EI 2012年第4期398-420,共23页
The rectangular closed diaphragm(RCD)wall is a new type of bridge foundation.Compared to barrette foundation,measuring the performance of RCD walls is relatively complicated because of their incorporation of a soil co... The rectangular closed diaphragm(RCD)wall is a new type of bridge foundation.Compared to barrette foundation,measuring the performance of RCD walls is relatively complicated because of their incorporation of a soil core.Using the FLAC3D software,this paper investigates the deformation properties,soil resistance and skin friction of a laterally loaded RCD wall as well as the settlement,axial force and load-sharing ratio of a vertically loaded RCD wall.Special attention is given to the analysis of factors that influence the performance of the soil core.It was found that under lateral loading,the RCD wall behaves as an end-bearing friction wall during the entire loading process.The relative displacement between the wall body and the soil core primarily occurs below the rotation point,and the horizontal displacement of the soil core is greater than that of the wall body.Under vertical loading,the degree of inner skin friction around the bottom of the soil core and the proportion of the loading supported by the soil core increase with increased cross-section size.The wall depth is directly proportional to the loading supported by the outer skin friction and the tip resistance of the wall body and is inversely proportional to the loading borne by the soil core. 展开更多
关键词 diaphragm wall soil core bridge foundation FLAC3D bearing behavior
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Diaphragm wall-soil-cap interaction in rectangular-closed-diaphragm-wall bridge foundations 被引量:6
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作者 Hua WEN Qiangong CHENG +1 位作者 Fanchao MENG Xiaodong CHEN 《Frontiers of Structural and Civil Engineering》 SCIE EI 2009年第1期93-100,共8页
Rectangular-closed-diaphragm-wall foundation is a new type of bridge foundation.Diaphragm wallsoil-cap interaction was studied using a model test.It was observed that the distribution of soil resistance under the cap ... Rectangular-closed-diaphragm-wall foundation is a new type of bridge foundation.Diaphragm wallsoil-cap interaction was studied using a model test.It was observed that the distribution of soil resistance under the cap is not homogeneous.The soil resistance in the corner under the cap is larger than that in the border;and that in the center is the smallest.The distribution of soil resistance under the cap will be more uniform,if the sectional area of soil core is enlarged within a certain range.Due to the existence of cap,there is a“weakening effect”in inner shaft resistance of the upper wall segments,and there is“enhancement effect”in the lower wall segments and in toe resistance.The load shearing percentage of soil resistance under the cap is 10%–20%.It is unreasonable to ignore the effects of the cap and the soil resistance under the cap in bearing capacity calculations. 展开更多
关键词 diaphragm wall bridge foundation low cap INTERACTION
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Finite element modeling of thermo-active diaphragm walls 被引量:2
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作者 Yi RUI Mei YIN 《Frontiers of Structural and Civil Engineering》 SCIE EI CSCD 2020年第3期646-663,共18页
There are two major challenges faced by modern society:energy security,and lowering carbon dioxide gas emissions.Thermo-active diaphragm walls have a large potential to remedy one of these problems,since they are a re... There are two major challenges faced by modern society:energy security,and lowering carbon dioxide gas emissions.Thermo-active diaphragm walls have a large potential to remedy one of these problems,since they are a renewable energy technology that uses underground infrastructure as a heat exchange medium.However,extensive research is required to determine the effects of cyclic heating and cooling on their geotechnical and structural performance.In this paper,a series of detailed finite element analyses are carried out to capture the fully coupled thermo-hydro-mechanical response bf the ground and diaphragm wall.It is demonstrated that the thermal operation of the diaphragm wall causes changes in soil temperature,thermal expansion/shrinkage of pore water,and total stress applied on the diaphragm wall.These,in turmn,cause displacements of the diaphragm wall and variations of the bending moments.However,these effects on the performance of diaphragm wall are not significant.The thermally induced bending strain is mainly governed by the temperature differential and uneven thermal expansion/shrinkage across the wall. 展开更多
关键词 thermo-active diaphragm wall finite element analysis thermo-hyro-mechanical coupling ground source heat pump
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Parametric sensitivity analysis of cellular diaphragm wall 被引量:1
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作者 Xi CHEN Wei XU 《Frontiers of Structural and Civil Engineering》 SCIE EI 2012年第4期358-364,共7页
The deformation law of the cellular diaphragm wall in deep foundation pits was studied through numerical simulation.Based on the example of the dock wall in engineering,the full three-dimensional finite element model ... The deformation law of the cellular diaphragm wall in deep foundation pits was studied through numerical simulation.Based on the example of the dock wall in engineering,the full three-dimensional finite element model was used to simulate the excavation of the foundation pit.Interaction between the cellular diaphragm wall and the soil was also taken into account in the calculation.The results indicated that the maximum lateral displacement,which is the evaluation index of sensitivity analysis,appeared on the top of the interior longitudinal wall with an excavation depth of 10 m.The centrifuge model test was carried out to study the deformation regulation for a cellular diaphragm wall.The most sensitive factor was found by adjusting the length of the partition wall,the spacing of the partition wall and the thickness of the wall.In the end,a suggestion was proposed to optimize the cellular diaphragm by adjusting the length of the partition wall. 展开更多
关键词 cellular diaphragm wall sensitivity analysis OPTIMIZATION centrifuge model test
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Vertical Bearing Behavior of Cast-in-Place Diaphragm Wall in Shanghai
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作者 侯永茂 王建华 +1 位作者 陈锦剑 顾倩燕 《Journal of Shanghai Jiaotong university(Science)》 EI 2010年第2期153-157,共5页
When diaphragm wall is used as the permanent vertical bearing structure,design standard of the bored pile adopted has to induce the risk or iste. The vertical load transfer mechanism and bearing capacity of the diaphr... When diaphragm wall is used as the permanent vertical bearing structure,design standard of the bored pile adopted has to induce the risk or iste. The vertical load transfer mechanism and bearing capacity of the diaphragm wall are examined by a field testing program at the site in Shanghai soft clays. Test results indicate that the diaphragm wall almost behaves as a rigid body under the vertical load. It induces that the skin friction and the toe resistance of the wall develop simultaneously. The skin friction resistance carries the large portion of the vertical load,and the toe resistance of the wall provides about 9.2% of vertical bearing load. Toe-grouting technique is found to achieve a remarkable increase in skin friction and toe resistance. The toe resistance of the grouted wall provides about 17.5% of vertical load. 展开更多
关键词 diaphragm wall vertical bearing axial load SETTLEMENT toe grouting
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南京仙新路长江大桥主桥结构设计 被引量:1
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作者 肖海珠 高宗余 +2 位作者 陆勤丰 唐贺强 于俊杰 《桥梁建设》 EI CSCD 北大核心 2024年第2期1-7,共7页
南京仙新路长江大桥主桥为跨径1760 m的单跨钢箱梁悬索桥,主缆垂跨比1/9,边跨跨径580 m,边中跨比0.33。该桥上、下游各设1根主缆,单根主缆由169股127∅5.4 mm镀锌铝高强钢丝索股组成,采用PPWS法施工,钢丝标准抗拉强度2100 MPa。吊索与索... 南京仙新路长江大桥主桥为跨径1760 m的单跨钢箱梁悬索桥,主缆垂跨比1/9,边跨跨径580 m,边中跨比0.33。该桥上、下游各设1根主缆,单根主缆由169股127∅5.4 mm镀锌铝高强钢丝索股组成,采用PPWS法施工,钢丝标准抗拉强度2100 MPa。吊索与索夹采用销接式结构,跨中设置柔性中央扣索,短吊索设置关节轴承。主索鞍采用宽鞍槽单纵肋铸焊结合构造,散索鞍采用底座式全铸结构。加劲梁采用扁平流线型封闭整体钢箱梁,总宽31.5 m,梁高4 m,顶板与U肋之间采用双面埋弧全熔透焊接。桥塔采用门形混凝土结构,总高277.3 m,其上横梁为预应力混凝土结构,外包N字造型钢结构;桥塔基础采用直径2.8 m钻孔灌注桩。南锚碇采用外径65 m圆形地下连续墙基础;北锚碇采用沉井基础,平面尺寸70 m×50 m,高50 m。对结构进行静力分析及抗风性能理论和试验研究,结果表明:结构强度、刚度均满足规范要求;在加劲梁上设置0.67 m高中央稳定板、两侧风嘴处设置1 m宽水平稳定板后,大桥的颤振、涡振等抗风性能均满足要求,且具备一定的阻尼储备。 展开更多
关键词 悬索桥 高强钢丝 索鞍 钢箱梁 地下连续墙 锚碇 抗风性能 结构设计
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开洞刚性墙后土体破坏模式运动单元上限分析
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作者 盛兴旺 孙焕重 +3 位作者 秦傲韩 杨鹰 杨峰 郑纬奇 《铁道科学与工程学报》 EI CAS CSCD 北大核心 2024年第7期2827-2838,共12页
超载作用下开洞地下刚性连续墙后土体稳定性问题具有广泛的工程应用背景。考虑墙体矩形开洞宽度足够大,且刚性墙与土体完全光滑接触等条件,参考构造刚性多块体上限法思路,预设墙后土体极简破坏机构并转化为初始三角网格,提出交替循环式... 超载作用下开洞地下刚性连续墙后土体稳定性问题具有广泛的工程应用背景。考虑墙体矩形开洞宽度足够大,且刚性墙与土体完全光滑接触等条件,参考构造刚性多块体上限法思路,预设墙后土体极简破坏机构并转化为初始三角网格,提出交替循环式新增节点、单元缩减、对角互换及成层加密等网格更新措施,同步开展基于刚体平动运动单元上限方法的刚性墙后土体破坏分析,通过多层级非线性规划运算获得高精度临界超载系数σ_(s)/c上限解,界定墙后土体滑移线网破坏模式及其定量范围与扩展边界。进一步依前述流程计算获得多参数影响下的临界超载系数σ_(s)/c上限解图表,结果表明:1)刚性墙后土体典型破坏特征表现为土体上方和开洞处的整体下沉刚性区域,开洞前方核心区域以密集滑移线网区隔的刚性滑块群,以及外围主要滑动面;2)临界超载系数σ_(s)/c随土体内摩擦角ϕ增大而增大,且后续增幅显著增加;3)σ_(s)/c随开洞深度比C/D的增大呈现出近似线性增大的趋势;4)相较于ϕ和C/D,土体重度参数γD/c的变化对于σ_(s)/c的影响不甚明显,σ_(s)/c随γD/c增大呈现近似线性减小的趋势;5)σ_(s)/c受剪胀角参数ψ/ϕ的影响与ϕ的增大程度密切相关。本研究结果可为开洞地下刚性连续墙后土体失稳破坏模式定量分析、破坏机理研究及工程措施制定等工作提供有力的数据支持。 展开更多
关键词 地下刚性墙 临界超载 上限分析 网格更新 破坏模式 滑移线网
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北京地铁薄壁地下连续墙基坑变形规律统计分析
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作者 祝建勋 杨春阳 +3 位作者 李永伟 赵智涛 钟巧荣 宋云兴 《城市轨道交通研究》 北大核心 2024年第7期127-132,140,共7页
[目的]地下连续墙(以下简称“地连墙”)厚度对基坑变形量与变形模式的影响较为明显,尤其是薄壁地连墙对于基坑开挖和坑边荷载十分敏感。因此,有必要对北京地铁不同壁厚的地连墙基坑变形规律进行研究。[方法]以北京地铁6座薄壁地连墙车... [目的]地下连续墙(以下简称“地连墙”)厚度对基坑变形量与变形模式的影响较为明显,尤其是薄壁地连墙对于基坑开挖和坑边荷载十分敏感。因此,有必要对北京地铁不同壁厚的地连墙基坑变形规律进行研究。[方法]以北京地铁6座薄壁地连墙车站基坑工程为例,使用统计学方法对其地面竖向变形、地连墙墙顶竖向变形、地连墙水平位移及钢支撑轴力的监测数据进行统计分析。[结果及结论]薄壁地连墙基坑的地面变形可分为隆起-沉降型和沉降型两种,且地面变形中隆起变形的占比较高。土方开挖阶段,地连墙呈快速隆起趋势,开挖结束后墙顶隆起值产生小幅回落,并最终达到稳定值。根据地连墙变形特征,将其分为正常抛物线型、荷载抛物线A型、荷载抛物线B型3种类型。地连墙最大变形位置一般处于0.50H~0.85H(H为基坑深度),累计变形量集中于10~20 mm。第1道钢支撑轴力变化特征较为明显,其曲线可分为快速上升、快速下降、缓慢下降、快速上升4个阶段。 展开更多
关键词 地铁 薄壁地连墙 基坑变形
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装配式地连墙接缝变形特性研究
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作者 刘永超 贺文贤 +4 位作者 李泽源 王川 石长城 王成 陆鸿宇 《建筑科学与工程学报》 CAS 北大核心 2024年第2期75-84,共10页
为了研究接缝对装配式地连墙变形特性的影响并采取合理的改进措施,采用现场试验的方法将局部现浇地连墙替换为装配式地连墙,并对其实测的变形数据进行了对比分析;在实测数据分析的基础上,通过PLAXIS2D有限元软件模拟分析了不同深度横向... 为了研究接缝对装配式地连墙变形特性的影响并采取合理的改进措施,采用现场试验的方法将局部现浇地连墙替换为装配式地连墙,并对其实测的变形数据进行了对比分析;在实测数据分析的基础上,通过PLAXIS2D有限元软件模拟分析了不同深度横向接缝对装配式地连墙变形特性的影响规律;通过PLAXIS3D有限元软件对比了现浇墙与装配式地连墙水平方向及竖直方向变形形态,分析了竖向接缝对装配式地连墙变形特性的影响规律;最后,针对实测数据显示出的变形偏大问题,提出了改变冠梁刚度、围檩刚度、墙幅宽度、支撑位置4种改进措施,并通过PLAXIS3D有限元软件进行了验证。结果表明:装配式地连墙的接缝对墙体的刚度存在弱化作用,增大了其变形程度;位于坑底以上的横向接头失效时,墙体水平位移会显著增大,位于坑底以下的横向接头失效时,不会引起墙体水平位移的显著增大;竖向接头会显著减小装配式墙体的整体刚度,使其协同变形能力变差,变形更加难以控制;适当调节支撑位置可有效缓解墙幅间的错动和减小墙体变形。 展开更多
关键词 装配式地连墙 变形特性 支护结构 接缝
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饱和黏性土地基中邻近圆形基坑相互影响分析
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作者 谢万东 李建宇 赖俊珊 《地下空间与工程学报》 CSCD 北大核心 2024年第S01期440-445,共6页
间距很小的圆形基坑后方土压力分布复杂,很难判断考虑圆拱效应的竖向弹性地基梁法和三维弹性地基板法的适用性。采用三维连续介质有限元法对位于饱和黏性土中2个间距很小的由地下连续墙组成的圆形事故应急池基坑进行整体建模分析。结果... 间距很小的圆形基坑后方土压力分布复杂,很难判断考虑圆拱效应的竖向弹性地基梁法和三维弹性地基板法的适用性。采用三维连续介质有限元法对位于饱和黏性土中2个间距很小的由地下连续墙组成的圆形事故应急池基坑进行整体建模分析。结果表明,对于1号池开挖到底后和2号池开挖到底后2种工况,地下连续墙的最大水平位移和最大弯矩的差异都不大。基坑位移和竖向弯矩的实测结果与计算值也较为接近。2个相邻圆形基坑在间距很小的情况下,其相互影响也是非常有限的。圆形地下连续墙支护结构对周围土体刚度参数的变化不敏感。采用三维连续介质有限元法对圆形地下连续墙支护结构进行计算分析,得到的结构内力远小于考虑圆拱效应的竖向弹性地基梁法和三维弹性地基板法,在经济性上有明显优势。 展开更多
关键词 圆形基坑 地下连续墙 饱和黏性土 三维连续介质有限元法
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双层地下连续墙土压力的现场实测研究
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作者 陕耀 董雅丞 +1 位作者 张旭辉 姚西平 《岩土力学》 EI CAS CSCD 北大核心 2024年第S01期507-516,共10页
南京某超深基坑工程采用异形围护结构双层地下连续墙进行施工,双墙间土体处于非极限平衡状态,土压力分布演变形式及墙土间相互作用机制并不明确。为探明深基坑开挖施工引起的双墙间有限土体的土压力变化规律及墙外侧土拱效应对土压力分... 南京某超深基坑工程采用异形围护结构双层地下连续墙进行施工,双墙间土体处于非极限平衡状态,土压力分布演变形式及墙土间相互作用机制并不明确。为探明深基坑开挖施工引起的双墙间有限土体的土压力变化规律及墙外侧土拱效应对土压力分布的影响,采用现场实测分析结合物理模型计算的方法开展研究。首先,通过现场试验在土层中布设土压力监测点,获取基坑开挖过程中墙间土压力演变规律;其后,建立考虑土体分层的曲面锥形土拱模型,计算侧土拱发展引起的墙外土压力变化量,并结合试验数据的参数反演和误差分析对模型计算结果的准确性展开讨论。研究结果表明:基坑开挖施工对双墙间土体的影响总体呈现为挤压变形,有限土体受到的侧向约束作用有助于进一步发挥土体的抗剪强度;基坑开挖各工序中土方开挖过程对地层扰动最为显著;侧土拱效应进一步增大了浅层土体挡土墙侧土压力,而中深层土体中几乎没有侧土拱发展;考虑侧土拱效应的土压力计算结果较传统水土分算的Coulomb理论计算方法与现场实测结果更加吻合。本研究可为异型围护结构的深基坑工程设计及施工提供思路与建议。 展开更多
关键词 地下连续墙 土压力 现场实测 侧土拱效应 对比分析
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基于粒子图像测速技术的节状地下连续墙变形特性与破坏模式研究
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作者 吴九江 肖琳 +1 位作者 王丽娟 张祎 《岩土力学》 EI CAS CSCD 北大核心 2024年第9期2707-2718,共12页
节状地下连续墙(简称节状墙)是一种新型的地基基础形式,具备良好的工程特性,相对于传统地下连续墙而言,由于节部的存在,其抗拔承载力得到了有效地提升。目前,节状墙的应用及研究尚处于起步阶段,其变形特性与破坏模式亟待摸清。通过室内... 节状地下连续墙(简称节状墙)是一种新型的地基基础形式,具备良好的工程特性,相对于传统地下连续墙而言,由于节部的存在,其抗拔承载力得到了有效地提升。目前,节状墙的应用及研究尚处于起步阶段,其变形特性与破坏模式亟待摸清。通过室内模型试验辅以粒子图像测速(particle image velocimetry,简称PIV)技术对节状墙基础竖向受拉下的位移和破坏形态开展了分析,研究结果表明:端部与中部节的设置扩大了深部与浅部土体的影响范围,多部节的设置相对于单部节有利于调动更广范围的土体。节状墙的破坏模式包括垂直滑移面、倒金字塔状或正切曲线和花瓶状曲线(即曲线滑移面)相连接的滑移面。总体而言,与抗拔桩相比,节状墙的抗拔破坏面受到节部数量和位置的影响而表现为复合型,且部分滑移面的走向与土体内摩擦角有关。 展开更多
关键词 节状地下连续墙 粒子图像测速技术 变形与破坏模式 节部 模型试验
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“两墙合一”深基坑工程设计与技术创新
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作者 李伟 李永东 《岩土工程技术》 2024年第4期384-390,共7页
北京CBD核心区某项目基坑深度36m,因受场地空间限制,采用“两墙合一”+内支撑支护体系,在实现基坑挡土、止水功能的同时完成了地下结构外墙施工。为提高工程质量和施工效率,针对地连墙与主体结构的连接、槽段接头处理方式、有限空间导... 北京CBD核心区某项目基坑深度36m,因受场地空间限制,采用“两墙合一”+内支撑支护体系,在实现基坑挡土、止水功能的同时完成了地下结构外墙施工。为提高工程质量和施工效率,针对地连墙与主体结构的连接、槽段接头处理方式、有限空间导墙结合近接建筑物预换撑等方面进行了技术创新,取得了较好的工程效果,可供类似工程参考。 展开更多
关键词 两墙合一 预埋件连接 槽段接头处理 异形导墙兼预换撑结构 支撑兼做栈桥
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