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General deformation behavior of deep excavation support systems: A review

Maher T. El-Nimr, Ali Basha, Mohamed M. Abo-Raya, Mohamed H. Zakaria

2022Global Journal of Engineering and Technology Advances27 citationsDOIOpen Access PDF

Abstract

In geotechnical engineering, ground movement caused by excavations is a challenging issue. The excessive differential settlement generated by soil movement induced by wall deflection may cause damage to nearby structures. A detailed literature review on the general deformation behavior of deep excavation support systems is presented in this paper. Many factors, such as normalized horizontal deflection (δh-max/He%), vertical displacement (δv-max/He%), δvmax/δhmax ratio, settlement influence zone (Do), etc., can play significant roles in describing the deflection behavior of the excavation system. A descriptive analysis of the reviewed data was carried out. The concluded δh-max/He% values range between 0.17 to 1.5, with a mean value of 0.58 for soft clay, while in the case of sands and stiff clay soils δh-max/He% value ranges between 0.07 to 0.40, with a mean value of 0.20. δv-max/He% values range between 0.13 to 1.10, with a mean value of 0.49 for soft soil, while its value ranges between 0.02 to 1.10, with a mean value of 0.24 in the case of sands and stiff clay soils. The settlement influence zone (Do) reaches a mean distance of 2.3He, which falls within Do=1.5-3.5He in the case of soft clays, while Do reaches a mean distance of 2.0He and 3.0He in the case of sands and other stiff clay soils, respectively. The relationship between system stiffness and excavation-induced wall and ground movements was discussed. Unfortunately, the literature review offers limited data regarding system stiffness, the 3-D nature of excavation support systems, excavation processes, and time effects.

Topics & Concepts

Geotechnical engineeringDeflection (physics)ExcavationSoil waterStiffnessGeologySettlement (finance)Ground movementMean valueEngineeringSoil scienceMathematicsStructural engineeringPhysicsPaymentStatisticsComputer scienceWorld Wide WebOpticsGeotechnical Engineering and AnalysisGeotechnical Engineering and Underground StructuresCivil and Geotechnical Engineering Research
General deformation behavior of deep excavation support systems: A review | Litcius