Monotonic laterally loaded pile testing in a stiff glacial clay till at Cowden

Byrne, Byron W.; McAdam, RA; Burd, H. J.; Beuckelaers, Wjap; Gavin, Kenneth; Houlsby, G. T.; Igoe, David; Jardine, R. J.; Martin, Constance; Wood, Alastair Muir; Potts, D M; Gretlund, Jesper Skov; Taborda, David M.G.; Zdravković, Lidija

doi:10.1680/jgeot.18.pisa.003

Cited by 76 publications

(36 citation statements)

References 14 publications

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“…This section describes the calibration of the PIMS model to monotonic and cyclic laboratory test data for two overconsolidated clays, accompanied by 3D FEA of monopile foundations subjected to monotonic and cyclic lateral loading. The Bolders Bank formation is also the main geotechnical unit at the Cowden test site, where laterally loaded pile tests were conducted during the PISA research project (Byrne et al, 2019). Triaxial test data from the Cowden site (Zdravković et al, 2019) were found to be broadly consistent with the Fugro data set employed to calibrate the PIMS model.…”

Section: Overview Of Application Examplesmentioning

confidence: 72%

“…Triaxial test data from the Cowden site (Zdravković et al, 2019) were found to be broadly consistent with the Fugro data set employed to calibrate the PIMS model. On the basis of this observation, several of the PISA pile tests were analysed using the calibrated PIMS model and the computed results compared with the field data (Byrne et al, 2019). Fig.…”

Section: Overview Of Application Examplesmentioning

confidence: 99%

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Formulation and implementation of a practical multi-surface soil plasticity model

Whyte

Burd

Martin

et al. 2020

Computers and Geotechnics

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This paper presents a new constitutive model for clay, for undrained monotonic and cyclic loading, that has been developed specifically for geotechnical design applications. The model employs a parallel Iwan approach, consisting of multiple elastic-perfectly-plastic micro models. Degradation of stiffness and strength during cyclic loading is incorporated using an empirical cyclic overlay method. The theoretical framework and calibration processes for the model are presented. An implementation of the model in a commercial finite element program is then described; this implementation is demonstrated via 3D finite element analyses of example offshore monopile foundations subjected to monotonic and cyclic lateral loading.

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Section: Overview Of Application Examplesmentioning

confidence: 72%

Section: Overview Of Application Examplesmentioning

confidence: 99%

Formulation and implementation of a practical multi-surface soil plasticity model

Whyte

Burd

Martin

et al. 2020

Computers and Geotechnics

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“…The main purpose of the study was to develop a 3D FE model to, first, design the PISA test piles at Cowden from the predicted responses of the 3D FE model, and, second, to validate the 3D FE model by comparing these predictions with the field test results obtained subsequently. Two pile diameters ( = 0.762 m and = 2.0 m) and three length-to-diameter ratios ( = 3 ⁄ , 5.25 and 10) were used for field testing, with a monotonic horizontal load applied at the top of a 10 m high steel tubular extension mounted on the pile heads (see Byrne et al, 2019a). The problem was discretised into the FE mesh shown in Figure 10.…”

Section: Stiffnessmentioning

confidence: 99%

Integrating laboratory and field testing into advanced geotechnical design

Zdravković

Potts

Taborda

2021

Geomechanics for Energy and the Environment

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Contemporary geotechnical design often requires the use of advanced numerical analysis, if it is to take account of the complex nature of many geotechnical problems. One crucial aspect of such analyses is the realistic representation of the facets of soil behaviour that are dominant in any given problem, which in turn requires a careful selection of an appropriate constitutive model and derivation of model parameters from the available, and often disparate, experimental data. This paper uses the authors' experience of advanced numerical analysis and constitutive modelling to emphasise the importance of close integration of the process involved with interpreting experimental data with the process of selecting and calibrating advanced constitutive models, in successfully predicting the response of geotechnical structures. IS-Glasgow 2019Session: Case studiesfrom laboratory testing to real world performance Keynote paper IS-Glasgow 2019 Session: Case studiesfrom laboratory testing to real world performance Keynote paper 3 Undrained problems in stiff low-plasticity clays 2.1 BackgroundThe selected example considers the design of a large-scale pile testing programme under monotonic lateral loading, in a stiff low-plasticity overconsolidated clay till at Cowden, UK, as part of the PISA (PIle-Soil Analysis) Joint Industry Project (JIP). Numerical analyses, ground investigation and in-situ pile testing were integral parts of the PISA project, concerned with the development of new design methods for laterally loaded monopiles, as foundation systems for offshore wind turbines. The existing codified p-y methodology (API, 2010; DNV-GL, 2016) was experienced by the relevant industry not to work well for large diameter monopiles with low length to diameter ratios ( / ). Central to the new development was academic research, comprising

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“…Phoon and Tang (2019a) have recently combined two databases to study capacity of static load tests on steel piles founded in various soil types. The joint industry research project Pile-Soil Analysis (PISA) has produced significant results and reports detailing premium quality site data (Burd et al 2020a(Burd et al , 2020bByrne et al 2017Byrne et al , 2020Zdravković et al 2020aZdravković et al , 2020b.…”

Section: Introductionmentioning

confidence: 99%

The DINGO database of axial pile load tests for the UK: settlement prediction in fine-grained soils

Voyagaki

Crispin

Gilder

et al. 2021

Georisk: Assessment and Management of Risk for Engineered Syste

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The availability of reliable field data is critical for the advancement of geotechnical engineering. This is particularly the case for piled foundations; due to the substantial geotechnical uncertainties. The settlement (performance) predictions from established analytical methods may deviate from field measurements by as much as an order of magnitude. This paper provides a statistical assessment of the uncertainty of predictions of pile performance under axial loading using an openly accessible geotechnical database of pile load tests from the United Kingdom. The collected database information was classified by pile type, location, test data quality and availability of geotechnical data. With reference to the data from fine-grained soils, two analytical models were employed to predict foundation settlement. The settlement prediction performance was then studied statistically and the model bias and error compared with reference to the aforementioned categories to identify the impact of different sources of uncertainty and evaluate the use of both models for future geotechnical practice. The two models investigated generally over-predict settlement, which is likely due to conservative selection of key model parameters, such as soil strength.

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Monotonic laterally loaded pile testing in a stiff glacial clay till at Cowden

Cited by 76 publications

References 14 publications

Formulation and implementation of a practical multi-surface soil plasticity model

Formulation and implementation of a practical multi-surface soil plasticity model

Integrating laboratory and field testing into advanced geotechnical design

The DINGO database of axial pile load tests for the UK: settlement prediction in fine-grained soils

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