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Centrifuge modeling of a large-scale surcharge on adjacent foundation
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作者 Jinzhang Zhang Zhenwei Ye +4 位作者 Dongming Zhang Hongwei Huang Shijie Han Tong Zou Le Zhang 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2024年第8期3181-3191,共11页
This study investigates the ground and structural response of adjacent raft foundations induced by largescale surcharge by ore in soft soil areas through a 130g centrifuge modeling test with an innovative layered load... This study investigates the ground and structural response of adjacent raft foundations induced by largescale surcharge by ore in soft soil areas through a 130g centrifuge modeling test with an innovative layered loading device.The prototype of the test is a coastal iron ore yard with a natural foundation of deep soft soil.Therefore,it is necessary to adopt some measures to reduce the influence of the large-scale surcharge on the adjacent raft foundation,such as installing stone columns for foundation treatment.Under an acceleration of 130 g,the model conducts similar simulations of iron ore,stone columns,and raft foundation structures.The tested soil mass has dimensions of 900 mm×700 mm×300 mm(lengthwidthdepth),which is remodeled from the soil extracted from the drilling holes.The test conditions are consistent with the actual engineering conditions and the effects of four-level loading conditions on the composite foundation of stone columns,unreinforced zone,and raft foundations are studied.An automatic layer-by-layer loading device was innovatively developed to simulate the loading process of actual engineering more realistically.The composite foundation of stone columns had a large settlement after the loading,forming an obvious settlement trough and causing the surface of the unreinforced zone to rise.The 12 m surcharge loading causes a horizontal displacement of 13.19 cm and a vertical settlement of 1.37 m in the raft foundation.The stone columns located on both sides of the unreinforced zone suffered significant shear damage at the sand-mud interface.Due to the reinforcement effect of stone columns,the sand layer below the top of the stone columns moves less.Meanwhile,the horizontal earth pressure in the raft foundation zone increases slowly.The stone columns will form new drainage channels and accelerate the dissipation of excess pore pressure. 展开更多
关键词 Centrifuge modeling Stone column Composite foundation Ground movement raft foundation
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Simplified approach for design of raft foundations against fault rupture.Part II:soil-structure interaction 被引量:4
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作者 I. Anastasopoulos N. Gerolymos +1 位作者 G. Gazetas M. F. Bransby 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2008年第2期165-179,共15页
This is the second paper of two, which describe the results of an integrated research effort to develop a four-step simplified approach for design of raft foundations against dip-slip (normal and thrust) fault ruptu... This is the second paper of two, which describe the results of an integrated research effort to develop a four-step simplified approach for design of raft foundations against dip-slip (normal and thrust) fault rupture. The first two steps dealing with fault rupture propagation in the free-field were presented in the companion paper. This paper develops an approximate analytical method to analyze soil-foundation-structure interaction (SFSI), involving two additional phenomena: (i) fault rupture diversion (Step 3); and (ii) modification of the vertical displacement profile (Step 4). For the first phenomenon (Step 3), an approximate energy-based approach is developed to estimate the diversion of a fault rupture due to presence of a raft foundation. The normalized critical load for complete diversion is shown to be a function of soil strength, coefficient of earth pressure at rest, bedrock depth, and the horizontal position of the foundation relative to the outcropping fault rupture. For the second phenomenon (Step 4), a heuristic approach is proposed, which "scans" through possible equilibrium positions to detect the one that best satisfies force and moment equilibrium. Thus, we account for the strong geometric nonlinearities that govern this interaction, such as uplifting and second order (P-△) effects. Comparisons with centrifuge-validated finite element analyses demonstrate the efficacy of the method. Its simplicity makes possible its utilization for preliminary design. 展开更多
关键词 fault rupture analytical method raft foundation soil-structure interaction EARTHQUAKE
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Model test on vertical bearing capacity of X-section concrete pile raft foundation in silica sand 被引量:3
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作者 XU Lai PENG Yu +1 位作者 DING Xuan-ming LIU Jia-yi 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第6期1861-1869,共9页
To reveal the bearing capacity of the X-section concrete piles pile raft foundation in silica sand,a series of vertical load tests are carried out.The X-section concrete piles are compared with circular section pile w... To reveal the bearing capacity of the X-section concrete piles pile raft foundation in silica sand,a series of vertical load tests are carried out.The X-section concrete piles are compared with circular section pile with the same section area.The load−settlement curves,axial force and skin friction,strain on concave and convex edge of the pile,pile-sand stress ratio,distributions of side and tip resistance are presented.The results show that bearing capacity of the X section concrete pile raft foundation is much larger than that of the circular pile raft foundation.Besides,compared with the circular pile,the peak axial force of X-section piles under raft is deeper and smaller while the neutral point of X-section concrete pile is deeper.Moreover,the strain on the concave edge is much larger than that on the convex edge of the pile,and the convex edge has more potential in bearing capacity as the vertical load increases.The X-section pile has higher pile-sand stress ratios and load-sharing between side resistance and tip resistance.Above all,the X-section concrete pile can significantly increase the bearing capacity of pile-raft foundations in silica sand. 展开更多
关键词 X-section pile pile raft foundation model test neutral point pile-soil stress ratio
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Settlement calculation for long-short composite piled raft foundation 被引量:4
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作者 赵明华 张玲 杨明辉 《Journal of Central South University of Technology》 EI 2006年第6期749-754,共6页
The mechanism of long-short composite piled raft foundation was discussed. Assuming the relationship between shear stress and shear strain of the surrounding soil was elasto-plastic, shear displacement method was empl... The mechanism of long-short composite piled raft foundation was discussed. Assuming the relationship between shear stress and shear strain of the surrounding soil was elasto-plastic, shear displacement method was employed to establish the different explicit relational equations between the load and the displacement at the top of pile in either elastic or elasto-plastic period. Then Mylonakis & Gazetas model was introduced to simulate the interaction between two piles or between piles and soil. Considering the effect of cushion, the flexible coefficients of interaction were provided, With the addition of a relevant program, the settlement calculation for long-short composite piled raft foundation was developed which could be used to account for the interaction of piles, soil and cushion. Finally, the calculation method was used to analyze an engineering example. The calculated value of settlement is 10.2 ram, which is close to the observed value 8.8 mm. 展开更多
关键词 long-short composite oiled raft foundation shear displacement method SETTLEMENT Mylonakis Gazetas model
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Spring constitutive model of rigid pile composite foundation and application in design of raft foundation 被引量:1
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作者 韩小雷 肖成安 +1 位作者 李稼轩 冯杰强 《Journal of Central South University》 SCIE EI CAS 2013年第4期1079-1084,共6页
The simplified analysis method based on the static equilibrium is generally adopted for raft design. The secondary stress of superstructure due to the differential settlement of the foundation is neglected, which lead... The simplified analysis method based on the static equilibrium is generally adopted for raft design. The secondary stress of superstructure due to the differential settlement of the foundation is neglected, which leads to larger support moments and longitudinal bending of raft compared with real values. The spring constitutive relation of composite foundation is obtained by the flat plate loading tests in Karst region. The interaction between the spring and the raft is equivalent to the interaction between the composite foundation and the raft. The model for superstructure-raft-composite foundation interaction analysis is thus established and the raft is designed. This method not only considers the nonlinear properties of composite foundation but also analyzes the influence of superstructure on bending moment and deformation of raft. Compared with the inverted floor method, the calculated values of moment become more reasonable and uneven settlements are considered. This can be references to the design of raft foundation in similar regions. 展开更多
关键词 spring constitutive relation composite foundation raft INTERACTION
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Structural Behavior of Tall Building Raft Foundations in Earthquake Zones
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作者 Mohammed S. Al- Ansari 《Open Journal of Earthquake Research》 2017年第4期180-190,共11页
The paper studies the behavior of reinforced concrete raft foundations for multi-story buildings. It also develops a reliability assessment tool for multi- story building raft foundations subjected to earthquake loadi... The paper studies the behavior of reinforced concrete raft foundations for multi-story buildings. It also develops a reliability assessment tool for multi- story building raft foundations subjected to earthquake loading. Several multi-story buildings with various configurations, heights, and soil profiles, were subjected to several ACI code combinations of gravity and earthquake loads from different seismic zones. The reliability of the raft foundations of these buildings was assessed using the reliability index approach based on their resistance to the applied loads. Also, the responses of the multi-story buildings under these loading combinations were studied and analyzed in order to draw recommendations and guidelines for the preliminary design of structurally efficient and reliable raft foundations in earthquake zones. 展开更多
关键词 raft foundation EARTHQUAKE Loads foundation SETTLEMENTS Building DRIFT Reliability INDEX Structural and Soil Parameters
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Numerical Study of the Mechanical Behavior of a Foundation Raft under the Hydrodynamic Influence of the Mechanical Characteristics of Clay Soils
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作者 Tsanga Menounga Hugues Fokwa Didier +1 位作者 Nde Martial Ngwem Bahiya Blaise 《Engineering(科研)》 2020年第10期766-780,共15页
The clay soils of the city of Douala are constantly saturated with water, which permanently favors the hydrodynamic behavior of the soils (swelling or consolidation). This phenomenon can cause serious disturbances in ... The clay soils of the city of Douala are constantly saturated with water, which permanently favors the hydrodynamic behavior of the soils (swelling or consolidation). This phenomenon can cause serious disturbances in the structure of buildings resulting in the appearance of cracks in structures (buildings, road bridge, viaduct, etc.). The foundation raft is a very important structure in the dimensioning of structures. Given the soil-structure interactions, its mechanical characteristics must be the subject of a special study linked to the building environment. In this article, we present a study of the mechanical behavior of a foundation raft anchored in a laminate floor. The aim is to highlight the influence of the mechanical properties of the foundation soil on the evolution of the mechanical behavior of the raft. The method used is a numerical simulation. A physical model taking into account a 5-storey building based in Douala in the Denver district is studied. The foundation on the raft foundation of this building follows an elastic constitutive law with Mazars damage, and rests on a laminated soil of plastic elastic model with Camclay plasticity criterion. The ground-raft and ground-ground interfaces are carried out with the finite elements joined to three nodes (JOI3), and obey the Coulomb model;it is an expansion joint model with Mohr-Coulomb type criterion and associated flow. The numerical resolution is carried out by the finite element method, and the numerical simulations via the Cast3M calculation code. The results from the simulations show that the mechanical characteristics of foundation soils, in this case the water content, the compactness, the state of consolidation, greatly influence the mechanical behavior of the foundation slab. There is indeed a significant settlement and a great deformation of the raft foundation when the water content of the soil layers increases, and when the states of consolidation and compactness are low. This article allows us to predict and control the evolution of the behavior of the ground-structure interface of a raft foundation and to adopt a new model appropriate for the sizing of civil engineering structures. 展开更多
关键词 raft foundation Water Content COMPACTNESS CONSOLIDATION SETTLEMENT Deformation Numerical Simulation
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Deep Foundation Pit Excavations Adjacent to Disconnected Piled Rafts: A Review on Risk Control Practice
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作者 Bantayehu Uba Uge Yuancheng Guo 《Open Journal of Civil Engineering》 2020年第3期270-300,共31页
Foundation pit excavation engineering is an old subject full of decision making. Yet, it still deserves further research due to the associated high failure cost and the complexity of the geological conditions and/or t... Foundation pit excavation engineering is an old subject full of decision making. Yet, it still deserves further research due to the associated high failure cost and the complexity of the geological conditions and/or the surrounding existing infrastructure around it. This article overviews the risk control practice of foundation pit excavation projects in close proximity to <span style="font-family:Verdana;">existing</span><span style="font-family:Verdana;"> disconnected piled raft. More focus is given to geotechnical aspects. The review begins with achievements to ensure excavation performance </span><span style="font-family:Verdana;">requirements,</span><span style="font-family:Verdana;"> and follows to discuss the complex </span><span style="font-family:Verdana;">soil structure</span><span style="font-family:Verdana;"> interaction involved among the fundamental components</span><span style="font-family:Verdana;"><span style="font-family:Verdana;"><span style="font-family:Verdana;">: </span></span></span><span><span><span style="font-family:;" "=""><span style="font-family:Verdana;">the retaining wall, mat, piles, cushion, and the soil. After bringing consensus points to practicing engineers and </span><span style="font-family:Verdana;">decision makers</span><span style="font-family:Verdana;">, it then suggests possible future research directions.</span></span></span></span> 展开更多
关键词 Deep foundation Pit Excavation Disconnected Piled raft foundation Risk Control Observational Method
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Construction Technical Temperature Cracking for a and Control of Concrete Plate Type Raft Foundation
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《International English Education Research》 2013年第12期111-114,共4页
The mass fiat raft foundation Section is large and Cement is in large quantities, the temperature changes in the larger cement hydration heat of the water releasing, the temperature stress is main reason reducing crac... The mass fiat raft foundation Section is large and Cement is in large quantities, the temperature changes in the larger cement hydration heat of the water releasing, the temperature stress is main reason reducing cracking. According to the basement of a project of Guangzhou large slab raft foundation engineering as an example, Discussing the construction technology measures of early crack of large volume concrete of raft plate in the process of construction,. The results show that it Can effectively prevents the slab foundation structure cracking and achieves good results through controlling Concrete materials and concrete temperature Parameter such as the lifting machine temperature and the pouring temperature and the expansion joint or the whole pouring length. 展开更多
关键词 The Flat Plate raft foundation the Mass Concrete Temperature Cracking
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Settlement mechanism of piled-raft foundation due to cyclic train loads and its countermeasure
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作者 Gu Linlin Ye Guanlin +2 位作者 Wang Zhen Ling Xianzhang Zhang Feng 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2017年第3期499-511,共13页
In this paper, numerical simulation with soil-water coupling finite element-finite difference(FE-FD) analysis is conducted to investigate the settlement and the excess pore water pressure(EPWP) of a piled-raft fou... In this paper, numerical simulation with soil-water coupling finite element-finite difference(FE-FD) analysis is conducted to investigate the settlement and the excess pore water pressure(EPWP) of a piled-raft foundation due to cyclic high-speed(speed: 300km/h) train loading. To demonstrate the performance of this numerical simulation, the settlement and EPWP in the ground under the train loading within one month was calculated and confirmed by monitoring data, which shows that the change of the settlement and EPWP can be simulated well on the whole. In order to ensure the safety of train operation, countermeasure by the fracturing grouting is proposed. Two cases are analyzed, namely, grouting in No-4 softest layer and No-9 pile bearing layer respectively. It is found that fracturing grouting in the pile bearing layer(No-9 layer) has better effect on reducing the settlement. 展开更多
关键词 high-speed train piled-raft foundation FEM SETTLEMENT soil-pile interaction fracturing grouting.
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Foundation Assessment in Different Parts of Iraq Using STAAD Pro V8i 被引量:2
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作者 Entidhar A1-Taie Nadhir A1-Ansari Sven Knutsson Tarek Edrees Saaed 《Journal of Civil Engineering and Architecture》 2013年第3期273-281,共9页
Foundation is considered as one of the main parts of any structure. The type of foundation used is highly dependent on the type and properties of soil. The design of foundations requires many factors that should be de... Foundation is considered as one of the main parts of any structure. The type of foundation used is highly dependent on the type and properties of soil. The design of foundations requires many factors that should be defined. There are number of differences in the geological and soil conditions in Iraq. As a consequence, these differences are reflected on the type of foundation to be used. Despite these differences, same materials and style of buildings are used all over Iraq. The main problems of Iraqi soil are high gypsum content, salinity and shallow water table depth. These factors that influence the foundations are the soil properties and the amount of loads that transmitted by the superstructure. The situation has been analysed through a case study which illustrated the link between soil and foundation types in three different parts of Iraq (Mosul, Baghdad and Basra). One building was analysed using "STAAD (structural analysis and design). Pro" software in these regions. It is evident that Iraqi designers and engineers require local code to define all the loads, materials and design of the foundation to be used. The use of local materials might be very effective from both engineering and economic perspectives. 展开更多
关键词 GYPSUM bearing capacity Iraqi soil raft foundation foundation design base pressure
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关于Staad Foundation在筏板基础设计中的运用 被引量:2
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作者 谭立佳 《山西建筑》 2013年第8期61-62,共2页
分别介绍了Staad Foundation软件的设计模式,界面各区域功能及数据输入方式,以某厂房筏板基础设计为例,对该软件在筏板基础设计中的运用进行了论述,着重阐述了操作步骤及操作过程中应注意事项,为今后同类筏板基础设计提供了借鉴。
关键词 筏板基础 STAAD foundation软件 有限元 设计
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Estimation of Settlement under Shallow Foundation for Different Regions in Iraq Using SAFE Software
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作者 Entidhar Al-Taie Nadhir Al-Ansari Sven Knutsson 《Engineering(科研)》 2015年第7期379-386,共8页
Foundation design must satisfy limited values of settlement. Settlement is an essential criterion in the design process of shallow foundations. To calculate the settlement under different types of shallow foundations,... Foundation design must satisfy limited values of settlement. Settlement is an essential criterion in the design process of shallow foundations. To calculate the settlement under different types of shallow foundations, 79 samples were taken from twenty-three sites distributed in three regions: Mosul, Baghdad and Basrah in the northern, central and southern parts of Iraq. Field and laboratory tests were performed to obtain the strength parameters to calculate the bearing capacity. The results obtained for the bearing capacity were used in SAFE software. The software was used to design and analyze the foundation and to calculate the settlements under two types of foundations (raft and continuous) for the three regions. Average and minimum values of bearing capacity were used. The software used subgrade reaction modules values for the design and analysis. According to the results, the suitable, safe and economical type of foundation to be used in Mosul, Baghdad and Basrah regions for the average value of bearing capacity is the continuous type for the first two regions while the raft type is recommended for Basrah region. In case that the minimum bearing capacity values are used, raft foundation is recommended for Mosul and Baghdad. While deep foundation is the suitable type of foundation for Basrah region. 展开更多
关键词 raft foundation SILT CLAY SETTLEMENT SAFE
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3D-Analysis of Soil-Foundation-Structure Interaction in Layered Soil
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作者 Mohd Ahmed Mahmoud H. Mohamed +1 位作者 Javed Mallick Mohd Abul Hasan 《Open Journal of Civil Engineering》 2014年第4期373-385,共13页
The analysis of building structure in contact with soil involves an interactive process of stresses and strains developed within the structure and the soil field. The response of Piled-Raft Foundation system to the st... The analysis of building structure in contact with soil involves an interactive process of stresses and strains developed within the structure and the soil field. The response of Piled-Raft Foundation system to the structure is very challenging because there is an important interplay between the component of building structure and the soil field. Herein, soil-foundation-structure interaction of buildings founded on Piled-Raft Foundation is evaluated through 3D-Nonlinear Finite Element Analyses using PLAXIS3D FOUNDATION code. The soil settlements and forces demand of the high-rise building structures and foundation is computed. The parametric study affecting the soil-foundation-structure response has been carried out. The parameters such as construction phasing, sequential loading, building aspect ratios, soil failure models and thickness proportion of soil field stiff layer, are considered. It is concluded that the interaction of building foundation-soil field and super-structure has remarkable effect on the structure. 展开更多
关键词 foundation Piled-raft foundation SOIL Models SOIL Field FINITE Element Method SEQUENTIAL LOADING Construction Phase
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秦望广场塔楼沉降后浇带提前封闭技术研究 被引量:1
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作者 江胜学 《铁道工程学报》 EI CSCD 北大核心 2024年第6期85-92,共8页
研究目的:带超高层物业开发的大型地下综合体,为了不影响裙房和地下室提前投入使用,需要研究超高层建筑沉降后浇带提前封闭可行性,通过杭州富阳秦望广场通道工程实际项目,采用有限元整体建模分析,提出了残余沉降差计算方法,利用试桩静... 研究目的:带超高层物业开发的大型地下综合体,为了不影响裙房和地下室提前投入使用,需要研究超高层建筑沉降后浇带提前封闭可行性,通过杭州富阳秦望广场通道工程实际项目,采用有限元整体建模分析,提出了残余沉降差计算方法,利用试桩静载试验P-S曲线确定了桩基线刚度参数,推导出沉降后浇带提前封闭楼层,通过实际监测数据,对理论计算结果进行对比验证。研究结论:(1)试桩线刚度与单桩承载力特征值比值在76~119之间,与传统经验值100倍单桩承载力特征值相比,试桩结果离散性较大;(2)塔楼总沉降量与楼层数关系不大,与桩基线刚度取值关系较大;(3)塔楼桩基采用相同线刚度,楼层数与总沉降量成正比;(4)塔楼沉降呈线性发展趋势,理论计算与监测数据基本一致,因成桩工艺控制不稳定,导致工程桩线刚度有离散性,理论计算沉降速率与监测相比均偏小,导致后浇带提前封闭楼层判断有误差;(5)本研究成果可为超高层建筑提前封闭沉降后浇带设计提供参考。 展开更多
关键词 沉降后浇带 提前封闭 残余沉降差 超高层建筑 桩筏基础 沉降速率
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格栅式钢板桩与桩筏基础集成的基坑支护技术
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作者 朱张峰 马福建 +3 位作者 陈俊杰 于登合 徐海朕 张宝谦 《施工技术(中英文)》 CAS 2024年第15期31-36,共6页
针对软土地质基坑工程,提出格栅式钢板桩与桩筏基础集成的基坑支护技术,通过设置纵向双排钢板桩与横向钢板桩或钢板组成格栅式钢板桩,以提高支护结构强度与刚度,并与桩筏基础协同工作,以解决结构下部软土层承载力较差的问题,并提高支护... 针对软土地质基坑工程,提出格栅式钢板桩与桩筏基础集成的基坑支护技术,通过设置纵向双排钢板桩与横向钢板桩或钢板组成格栅式钢板桩,以提高支护结构强度与刚度,并与桩筏基础协同工作,以解决结构下部软土层承载力较差的问题,并提高支护结构稳定性。以某管廊工程为依托,通过计算分析与技术对比,论证集成支护技术的安全性与可行性。 展开更多
关键词 基坑 软土 钢板桩 桩筏基础 支护
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高层建筑迫降法纠倾方案研究
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作者 吴水根 余奇思 +1 位作者 张旭 吕兆华 《建筑施工》 2024年第6期848-851,共4页
建筑物因勘察、设计、施工或环境等不良因素影响,导致不均匀沉降,从而产生超过规范允许范围的倾斜。而高层建筑纠倾工程技术难度大、风险高。结合工程实例,通过对现有技术资料分析得出倾斜的原因,并根据工程实际情况,提出桩侧射水扰动... 建筑物因勘察、设计、施工或环境等不良因素影响,导致不均匀沉降,从而产生超过规范允许范围的倾斜。而高层建筑纠倾工程技术难度大、风险高。结合工程实例,通过对现有技术资料分析得出倾斜的原因,并根据工程实际情况,提出桩侧射水扰动迫降纠倾方案,对迫降法的原理、方案设计和施工工艺流程进行了介绍,可为类似工程提供参考。 展开更多
关键词 高层建筑 桩筏基础 沉降 纠倾技术 迫降法
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某高层剪力墙结构不均匀沉降分析及处理
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作者 陈大川 唐弋斌 +1 位作者 常科龙 郭杰标 《建筑结构》 北大核心 2024年第11期113-118,共6页
无新增荷载情况下的持续不均匀沉降常常发生在地基有缺陷的高层建筑中,该类沉降产生的破坏是缓慢持续的。地基不均匀沉降会导致建筑物开裂、倾斜,进一步发生结构安全事故。依据某高层剪力墙结构以及不均匀沉降监测数据,采用ABAQUS建立... 无新增荷载情况下的持续不均匀沉降常常发生在地基有缺陷的高层建筑中,该类沉降产生的破坏是缓慢持续的。地基不均匀沉降会导致建筑物开裂、倾斜,进一步发生结构安全事故。依据某高层剪力墙结构以及不均匀沉降监测数据,采用ABAQUS建立该高层剪力墙结构三维有限元计算模型,分析不均匀沉降工况下上部结构的内力分布及整体变形发展规律。结果显示,有限元计算得到的模型内力增大位置与实际外墙主要开裂位置相吻合,整体沉降变形发展规律与现场实测数据基本一致,证明上部结构三维有限元模型的可行性。进一步建立剪力墙结构-桩筏基础-地基耦合计算模型,开展不同筏板厚度对整体结构不均匀沉降的影响分析。同时结合实际案例制定“增设筏板+补桩”处理方法,加固完成后监测数据显示房屋处于稳定状态,变形与裂缝均无发展。 展开更多
关键词 持续不均匀沉降 三维有限元模型 高层剪力墙结构 桩筏基础 沉降控制
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建筑工程中筏板基础大体积混凝土温度裂缝计算及施工技术 被引量:3
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作者 李帅 《科技创新与应用》 2024年第5期156-159,共4页
该文以某高层建筑为例,探究筏板基础大体积混凝土温度裂缝的计算方法及混凝土施工技术。分别计算各龄期混凝土的收缩变形值、弹性模量、温度应力等参数,然后求解抗裂安全系数。计算结果显示,大体积混凝土各龄期的抗裂安全系数均大于1.0... 该文以某高层建筑为例,探究筏板基础大体积混凝土温度裂缝的计算方法及混凝土施工技术。分别计算各龄期混凝土的收缩变形值、弹性模量、温度应力等参数,然后求解抗裂安全系数。计算结果显示,大体积混凝土各龄期的抗裂安全系数均大于1.0,满足抗裂要求。在大体积混凝土施工中,重点加强物料质量检验与配合比设计,以及混凝土浇筑、养护等环节的施工管理,把握施工技术要点,才能提高筏板基础的施工质量。在混凝土养护结束后进行温度测控,结果表明大体积混凝土内外温差较小,不存在温度裂缝的风险。 展开更多
关键词 筏板基础 大体积混凝土 温度裂缝 配合比 温度测控
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基于钢筋实际应力状态的基础不均匀沉降地下车库加固方法
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作者 郑永峰 丁鑫 +1 位作者 崔冠科 解鸣 《工程抗震与加固改造》 北大核心 2024年第1期169-176,共8页
某地下车库在降水作业时,将勘探孔改为降水井,引发突涌现象,导致基础底部脱空,筏板产生不均匀沉降,上部结构开裂严重。通过ABAQUS建立地下车库的实体模型,模拟承重结构的变形和损伤,探明地基不均匀沉降对承重结构的影响。结合现场实测... 某地下车库在降水作业时,将勘探孔改为降水井,引发突涌现象,导致基础底部脱空,筏板产生不均匀沉降,上部结构开裂严重。通过ABAQUS建立地下车库的实体模型,模拟承重结构的变形和损伤,探明地基不均匀沉降对承重结构的影响。结合现场实测结果、数值模拟结果及《混凝土结构设计规范》(GB 50010-2010)推荐公式,获取承重构件受力钢筋的实际应力状态,为结构加固设计提供依据。最后,采取加大截面、粘贴碳纤维布等方法对该车库承重构件进行了加固处理,加固方法可为类似工程提供借鉴。 展开更多
关键词 不均匀沉降 筏板基础 ABAQUS模拟 裂缝宽度 钢筋应力
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