Numerical Analysis of Deformation of Deep Foundation Excavation in Soft Clay Considering Influences of Time-effect

Removed due to plagiarism. The original was published by: Liu, Deng and Chu (eds) © 2008 Science Press Beijing and Springer-Verlag GmbH Berlin Heidelberg Geotechnical Engineering for Disaster Mitigation and Rehabilitation http://www.ftsl.itb.ac.id/kk/geotechnical_engineering/wp-content/uploads/2008/06/irsyam-165.pdf

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Weight Analysis of Accident Factors in Deep Foundation Excavation Based on Analytic Hierarchy Process

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.711.529 ◽

2014 ◽

Vol 711 ◽

pp. 529-534

Author(s):

Zi Sheng Yang ◽

Jun Xia Liu ◽

Yi Ren Wang

Keyword(s):

Analytic Hierarchy Process ◽

Deep Foundation ◽

Accident Rate ◽

Foundation Pit ◽

Analytic Hierarchy ◽

Weight Analysis ◽

Deep Foundation Excavation ◽

Hierarchy Process ◽

Factor Set ◽

Design Construction

For the past few years, great development has been achieved in deep foundation excavation. However, due to foundation excavation’s locality, individual diversity, complexity and uncertainty, the probability of accidents in foundation pit engineering tends to be greater than that in main works, and the accident rate may even reach about 20%, which makes the study on factors leading to foundation excavation accidents quite necessary and meaningful. By use of Analytic Hierarchy Process (AHP), this paper has figured out the ratio (weight) of the investigation, design, construction and other factors leading to foundation excavation accidents to the whole factor set, which is of great guiding significance to the study on prevention and treatment of foundation excavation accidents in future.

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Control of Artificial Recharge on Foundation Pit Deformation due to Dewatering

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.594-597.1901 ◽

2012 ◽

Vol 594-597 ◽

pp. 1901-1904

Author(s):

Hua Yuan ◽

Yan Hong

Keyword(s):

Artificial Recharge ◽

Deep Foundation ◽

Foundation Pit ◽

Deformation Control ◽

Adjacent Building ◽

The Difference ◽

Prevention Method ◽

Deep Foundation Excavation ◽

Controlling Measures ◽

Control Principle

In this paper, the currently available, feasible controlling measures for the deformation of foundation excavation and its surrounding environment are summarized systemically, which is mainly embodied in pit collapse, adjacent building differential settlement as well as underground pipeline cracking. Then first from the two aspects: artificial recharge used as prevention method and management measure separately, the paper illustrates the control principle, operation method and matters needing attention during artificial recharge. In addition, the difference between pumping well and recharge well are discusses. The research results will provide direction for the deformation control of deep foundation excavation and the operation of artificial recharge.

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Three-Dimensional Numerical Analysis of Excavation and Support of Deep Foundation Pit

Advanced Materials Research ◽

10.4028/scientific5/amr.446-449.1922 ◽

2012 ◽

Vol 446-449 ◽

pp. 1922-1926

Author(s):

Chang Zhi Zhu ◽

Xing Lian Zheng

Keyword(s):

Numerical Analysis ◽

Three Dimensional ◽

Deep Foundation ◽

Foundation Pit ◽

Deep Foundation Pit

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Design of Retaining and Protecting for a Deep Foundation Excavation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.919-921.1416 ◽

2014 ◽

Vol 919-921 ◽

pp. 1416-1420

Author(s):

Hui Wu Jin

Keyword(s):

Classical Method ◽

Design Method ◽

Small Deformation ◽

Structure Design ◽

Steel Pipe ◽

Deep Foundation ◽

Geological Conditions ◽

High Integrity ◽

Deep Foundation Excavation ◽

Design And Construction

Urban development often requires the construction of deep excavations. There are some difficulties during design and construction of foundation excavation, such as large engineering quantity, poor geological conditions, as well as challenges to design and construction of retaining and protecting structure. To solve these difficulties, supporting system of steel circle beam, steel pipe support and stiffened support compounding with steel pipe pile cofferdam is designed. Soil resistance calculating method is used for support structure design in all possible conditions and the result is compared with that using the classical method. With reasonable supporting process and construction measures, monitoring results including displacement of steel pipe piles and greatest axial force can meet the norm requirements. It is proved that the retaining and protecting system designed is safe and reliable. With the benefit of small deformation and high integrity, locking steel pipe piles gave full play to its locking function of water. The design method in the paper is feasible and may offer some references for similar deep foundation excavation.

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Numerical Analysis of Bearing Capacity of Strip Footing Built on Geogrid-Reinforced Sand Slope Over Soft Clay Layer (revised version 3)

Arabian Journal for Science and Engineering ◽

10.1007/s13369-020-04646-9 ◽

2020 ◽

Vol 45 (10) ◽

pp. 8269-8279

Author(s):

Ahmed Hamidi ◽

Khelifa Abbeche

Keyword(s):

Numerical Analysis ◽

Bearing Capacity ◽

Soft Clay ◽

Strip Footing ◽

Clay Layer ◽

Reinforced Sand

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Numerical Analysis on the Performance of the Underwater Excavation

Advances in Civil Engineering ◽

10.1155/2020/8894138 ◽

2020 ◽

Vol 2020 ◽

pp. 1-14

Author(s):

Bo Li ◽

Cangqin Jia ◽

Guihe Wang ◽

Jun Ren ◽

Gaofeng Lu ◽

...

Keyword(s):

Numerical Analysis ◽

Retaining Wall ◽

Lateral Wall ◽

Surface Settlement ◽

Design Parameters ◽

Analysis Model ◽

Deep Foundation ◽

Foundation Pit ◽

Wall Deflection ◽

Total Settlement

Based on the Yongdingmen Station of Beijing Metro, the underwater excavation method for deep foundation pit was introduced. This study constructed a numerical analysis model to analyze the performance of surface settlement and lateral wall deflection in the process of underwater excavation. Results showed that this method was better to control the surface settlement and lateral wall deflection compared with other dewatering excavations. In detail, most of the surface settlement was caused during the dry excavation stage and dewatering excavation stage while the deflection caused by underwater excavation only accounted for about 10% of the total settlement. Besides, the maximum settlement occurred 0.25∼0.5 H e behind the retaining wall and the value was 0.04% H e . Similar to the result of the surface settlement, most of the lateral wall deflection had been completed before the underwater excavation, which only caused about 7% of the total deflection. The maximum wall deflection and its location were approximately 0.06% H e and 0.5 H e , respectively. Moreover, a series of 3D numerical analyses were studied on the design parameters of the underwater excavation method. This study can be used as a reference for general performance and structural design of foundation pits with underwater excavation.

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