Simplified analytical "m-θ" curves for predicting nonlinear lateral pile response
Simplified analytical "m-θ" curves for predicting nonlinear lateral pile response
The relationship between the distributed moment acting on a pile segment due to vertical shear tractions at the pile-soil interface and the corresponding pile rotation (known as an “m-θ” curve) is important when determining the response of offshore monopiles with low slenderness ratios. Two simplified approaches to derive nonlinear “m-θ” curves (for clay under undrained conditions) are considered. Firstly, the vertical shear tractions can be derived in closed-form using known “t-z” curves (power-law and quadratic forms are considered) and integrating with respect to the pile circumference. Secondly, similarity in shape between an “m-θ” and a “t-z” curve is investigated which would enable a linear-transformation between the abscissas of the two normalised curves. This paper derives analytical linear-transformation factors using power-law and quadratic “t-z” curves and compares these with solutions available for a linear-elastic soil material. Finally, the effect of slip at the pile-soil interface on the “m-θ” curve is considered.
618-625
Bateman, A.H.
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Mylonakis, G.
8aa37314-d7c9-4962-bcc3-9a0ce1c4537b
Crispin, J.J.
61fc2c73-e279-4125-a241-67eff3862904
12 September 2023
Bateman, A.H.
f325d33d-9619-4b96-b3b9-d40bbb36d669
Mylonakis, G.
8aa37314-d7c9-4962-bcc3-9a0ce1c4537b
Crispin, J.J.
61fc2c73-e279-4125-a241-67eff3862904
Bateman, A.H., Mylonakis, G. and Crispin, J.J.
(2023)
Simplified analytical "m-θ" curves for predicting nonlinear lateral pile response.
In 9th International Offshore Site Investigation and Geotechnics Conference.
.
(doi:10.3723/SSVU3562).
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Conference or Workshop Item
(Paper)
Abstract
The relationship between the distributed moment acting on a pile segment due to vertical shear tractions at the pile-soil interface and the corresponding pile rotation (known as an “m-θ” curve) is important when determining the response of offshore monopiles with low slenderness ratios. Two simplified approaches to derive nonlinear “m-θ” curves (for clay under undrained conditions) are considered. Firstly, the vertical shear tractions can be derived in closed-form using known “t-z” curves (power-law and quadratic forms are considered) and integrating with respect to the pile circumference. Secondly, similarity in shape between an “m-θ” and a “t-z” curve is investigated which would enable a linear-transformation between the abscissas of the two normalised curves. This paper derives analytical linear-transformation factors using power-law and quadratic “t-z” curves and compares these with solutions available for a linear-elastic soil material. Finally, the effect of slip at the pile-soil interface on the “m-θ” curve is considered.
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Bateman_Mylonakis_Crispin_2023_Simplified_analytical_m-theta_curves_for_predicting_nonlinear_lateral_pile_response
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Published date: 12 September 2023
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Local EPrints ID: 495845
URI: http://eprints.soton.ac.uk/id/eprint/495845
PURE UUID: ae93efda-53e3-4fbe-ba23-1ca32d368824
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Date deposited: 25 Nov 2024 17:50
Last modified: 26 Nov 2024 03:12
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Author:
A.H. Bateman
Author:
G. Mylonakis
Author:
J.J. Crispin
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