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Geotechnical and Geological Engineering
Erschienen in: Geotechnical and Geological Engineering 4/2014

01.08.2014 | Original paper

Reliability Analyses at Ultimate and Serviceability Limit States of Obliquely Loaded Circular Foundations

verfasst von: Ashraf Ahmed, Abdul-Hamid Soubra

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 4/2014

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Abstract

This paper aims at determining the failure probability and the corresponding most predominant failure mode at both ultimate (ULS) and serviceability (SLS) limit states of a circular foundation resting on a (c, φ) soil and subjected to an inclined loading. The failure modes at ULS are the footing sliding and the soil punching while those at SLS are the exceedance of tolerable horizontal and vertical footing displacements. The probabilistic results based on the response surface methodology have shown that at both ULS and SLS, there is a load inclination where neither mode of failure is predominant. This inclination corresponds to the loading configurations situated on the line joining the origin and the maximal point of the interaction diagram. In a second stage, the results of a sensitivity analysis showing the effect of the different statistical parameters of the uncertain variables on the value of the failure probability were presented and discussed.
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Literatur
Abate G, Caruso C, Massimino MR, Maugeri M (2008) Evaluation of shallow foundation settlements by an elasto-plastic kinematic–isotropic hardening numerical model for granular soil. Geomech Geoengin J 3(1):27–40CrossRef
Ang A H-S, Tang WH (1975) Probability concepts in engineering planning and design. In: Basic principles, Vol.1 Wiley, New York
Cherubini C (2000) Reliability evaluation of shallow foundation bearing capacity on C′, φ′ soils. Can Geotech J 37:264–269
Fenton GA, Griffiths DV (2002) Probabilistic foundation settlement on spatially random soil. J Geotech Geoenv Eng ASCE 128(5):381–390CrossRef
Fenton GA, Griffiths DV (2003) Bearing capacity prediction of spatially random C-φ soils. Can Geotech J 40:54–65CrossRef
Griffiths DV, Fenton GA (2001) Bearing capacity of spatially random soil The undrained clay Prandtl problem revisited. Géotechnique 51(4):351–359CrossRef
Griffiths DV, Fenton GA, Manoharan N (2002) Bearing capacity of rough rigid strip footing on cohesive soil: probabilistic study. J Geotech Geoenv Eng ASCE 128(9):743–755CrossRef
Hasofer AM, Lind NC (1974) Exact and invariant second-moment code format. J Eng Mech ASCE 100(1):111–121
Low BK, Phoon KK (2002) Practical first-order reliability computations using spreadsheet. Proc Probab Geotech, Tech Econ Risk Estim, Graz, September 15–19: 39–46
Mollon G, Dias D, Soubra A-H (2009) Probabilistic analysis of circular tunnels in homogeneous soils using response surface methodology. J Geotech Geoenv Eng ASCE 135(9):1314–1325CrossRef
Popescu R, Deodatis G, Nobahar A (2005) Effects of random heterogeneity of soil properties on bearing capacity. Prob Engrg Mech 20:324–341CrossRef
Przewlocki J (2005) A stochastic approach to the problem of bearing capacity by the method of characteristics. Comput Geotech 32:370–376CrossRef
Sivakumar Babu GL, Srivastava A (2007) Reliabilty analysis of allowable pressure on shallow foundation using response surface method. Comput Geotech 34:187–194CrossRef
Soubra A-H, Youssef Abdel Massih DS (2010) Probabilistic analysis and design at the ultimate limit state of obliquely loaded strip footings. Géotechnique 60(4):275–285CrossRef
Srivastava A, Sivakumar Babu GL (2009) Effect of soil variability on the bearing capacity of clay and in slope stability problems. Eng Geol 108:142–152CrossRef
Tandjiria V, Teh CI, Low BK (2000) Reliability analysis of laterally loaded piles using response surface methods. Struct Saf 22:335–355CrossRef
Youssef Abdel Massih DS, Soubra A-H (2008) Reliability-based analysis of strip footings using response surface methodology. Int J Geomech 8(2):134–143CrossRef
Youssef Abdel Massih DS, Soubra A-H, Low BK (2008) Reliability-based analysis and design of strip footings against bearing capacity failure. J Geotech Geoenv Eng 134(7):917–928CrossRef
Metadaten
Titel
Reliability Analyses at Ultimate and Serviceability Limit States of Obliquely Loaded Circular Foundations
verfasst von
Ashraf Ahmed
Abdul-Hamid Soubra
Publikationsdatum
01.08.2014
Verlag
Springer International Publishing
Erschienen in
Geotechnical and Geological Engineering / Ausgabe 4/2014
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI
https://doi.org/10.1007/s10706-014-9750-y

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