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Geotechnical and Geological Engineering

Erschienen in:

05.03.2016 | Original paper

Parametric Study and Centrifuge-Test Verification for Amplification and Bending Moment of Clay–Pile System Subject to Earthquakes

verfasst von: Subhadeep Banerjee, Minu Joy, Debdeep Sarkar

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 6/2016

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Abstract

This paper examines seismic effects on fixed-head, end-bearing piles installed through soft clay. The numerical analyses were conducted using ABAQUS with a hypoelastic constitutive model for the clay. The dimensionless parameters involving the major parameters such as pile modulus, soil modulus, slenderness ratio, natural frequencies of clay layer and pile–raft, superstructure mass, density of the soil and peak ground acceleration were obtained from the parametric studies. The relationships for the amplification of ground motions and the maximum bending moment in the pile were developed based on regression of the numerical data. The computed results from the proposed relationships were compared with the results reported in the past studies.

Vorheriger Artikel Failure Mechanism of Soil Nail—Prestressed Anchor Composite Retaining Structure

Nächster Artikel Preparation of Uniform Sand Specimens Using Stationary Pluviation and Vibratory Methods

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Banerjee S (2010) Centrifuge and numerical modelling of soft clay–pile–raft foundations subjected to seismic shaking. Ph.D. Thesis. National University of Singapore, Singapore

Banerjee S, Goh SH, Lee FH (2007) Response of soft clay strata and clay–pile–raft systems to seismic shaking. J Earthq Tsunami 1(3):233–255CrossRef

Bathe KJ (1996) Finite element procedures. Prentice-Hall Inc., Upper Saddle River

Goh TL (2003) Stabilization of an excavation by an embedded improved soil layer. Ph.D. Thesis. National University of Singapore, Singapore

Hardin BO, Drnevich VP (1972) Shear modulus and damping in soils: design equations and curves. J Geotech Eng Div ASCE 98(7):667–692

Kang MA, Banerjee S, Lee FH, Xie HP (2012) Dynamic soil–pile–raft interaction in normally consolidated soft clay during earthquakes. J Earthq Tsunami 6(3):1250031–1–1250031–31CrossRef

Kavvadas M, Gazetas G (1993) Kinematic seismic response and bending of free-head piles in layered soil. Geotechnique 43(2):207–222CrossRef

Nikolaou S, Mylonakis G, Gazetas G, Tazoh T (2001) Kinematic pile bending during earthquakes: analysis and field measurements. Geotechnique 51(5):425–440CrossRef

Poulos HG, Davis EH (1980) Pile foundation analysis and design. Wiley Inc., New York

Poulos HG, Tabesh A (1996) Seismic response of pile foundations: some important factors. In: Proceedings of the 11th WCEE Paper No. 2085

Snyder JL (2004) Full scale test lateral load tests of a 3 × 5 pile group in soft clays and silts. M.Sc. Thesis, Brigham Young University, USA

Tabesh A, Poulos HG (2007) Design charts for seismic analysis of single piles in clay. Proc ICE (UK) Geotech Eng 160(GE2):85–96CrossRef

Vucetic M, Dobry R (1991) Effect of soil plasticity on cyclic response. J Geotech Eng ASCE 117(1):89–107CrossRef

Wilson DW (1998) Soil–pile–superstructure interaction in liquefying sand and soft clay. Ph.D. Thesis. University of California, Davis, California, USA

Yu Y, Lee FH (2002) Seismic response of soft ground. In: Proceedings of the ICPMG’02, pp 519–524

Zhu H, Chang MF (2002) Load transfer curves along bored piles considering modulus degradation. J Geotech Geoenviron Eng ASCE 128(9):764–774CrossRef

Titel: Parametric Study and Centrifuge-Test Verification for Amplification and Bending Moment of Clay–Pile System Subject to Earthquakes
verfasst von: Subhadeep Banerjee
Minu Joy
Debdeep Sarkar
Publikationsdatum: 05.03.2016
Verlag: Springer International Publishing
Erschienen in: Geotechnical and Geological Engineering / Ausgabe 6/2016
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI: https://doi.org/10.1007/s10706-016-9999-4

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