Emil Ushev scite author profile

Emil Ushev

4Publications

28Citation Statements Received

116Citation Statements Given

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113

Affiliations

Arup Group (United Kingdom), Imperial College London

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The behaviour of Bolders Bank glacial till under undrained cyclic loading

Ushev

Jardine

2022

Géotechnique

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Analysis of foundation behaviour under repeated loading can be important to the design of offshore facilities, towers, bridges, wind turbines and other structures. Although detailed guidance is available on how some geomaterials behave under cycling, few such studies have been reported on the glacial formations that are widespread across parts of northern Europe and under the North and Baltic Seas. This paper presents a cyclic laboratory investigation involving block samples of Bolders Bank till, which is one of the most extensive North Sea glacial formations. Static and cyclic triaxial tests are reported on nominally identical, low-plasticity, high-overconsolidation-ratio specimens from Cowden, near Hull in the UK. Twenty-three cyclic tests are reported on specimens that were re-consolidated to K0 stresses before experiencing up to 3500 undrained cycles involving a range of mean and cyclic shear stress combinations. The impacts of cycling on effective stress paths and strain development, cyclic stiffness and damping ratios are reported and interpreted with respect to parallel index, oedometer and monotonic triaxial compression and extension tests. Stable, metastable and unstable patterns of behaviour are identified, along with different cyclic failure modes. The styles of cyclic response are related to the till's static yielding behaviour. While the till can only manifest quasi-elastic behaviour within a very small (Y1) kinematic yield surface (KYS), a larger second (Y2) KYS is identified within which repeated loading leads to a non-linear yet stable response, with negligible mean effective stress drifts or stiffness degradation with low and stabilising strain accumulation rates. Cyclic paths that engage and relocate the Y2 surface lead to greater permanent strains, mean effective stress drifts and stiffness decays that become progressively more marked as the magnitudes of the cyclic stress perturbation and the number of cycles increase. While cycling under stable or metastable conditions increased the ultimate undrained strength of specimens that did not develop excessive strains, most cyclic paths that exceeded and climbed the till's Hvorslev surface were unstable and eventually failed. The experiments identified the key factors that affect the till's response to repeated loading and provide a basis for developing, testing and calibrating cyclic constitutive models and establishing simplified design procedures for comparable tills.

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Anisotropic Stiffness and Shear Strength Characteristics of a Stiff Glacial Till

Liu

Ushev

Jardine

2020

J. Geotech. Geoenviron. Eng.

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Glacial tills are widespread across North America, northern and central Asia, and northern Europe where they are also found under the Baltic, North and Norwegian Seas. Their geological and geotechnical characterisation is important to a wide range of onshore and offshore engineering projects. One aspect of tills on which little has been reported is their mechanical anisotropy. This paper reports coordinated hollow cylinder apparatus (HCA) tests, triaxial shearing and small-strain stress probing experiments, supported by index testing, on high-quality samples of a natural low-to-medium plasticity, high OCR, stiff clay-till from the Bolders Bank Formation at Cowden, near Hull in the UK. Material variability and sampling bias is inevitably introduced by the till's erratic gravel particles and fissure systems, and these aspects are addressed carefully. The experiments investigated the till's stiffness and shear strength anisotropy from its limited linear elastic range up to ultimate failure, showing that stiffnesses are higher in the horizontal direction than in the vertical and that higher undrained shear strengths develop under "passive" horizontal loading than "active" vertical loading. Comparisons are made between the till's patterns of anisotropy and those applying to previously studied sediments and reference is made to in-situ stiffness measurements. The important implications of anisotropic behaviour for geotechnical design and the interpretation of field tests are emphasised.

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Field Investigations into the Axial Loading Response of Displacement Piles in Chalk

Buckley

Jardine

Kontoe

et al.

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An appraisal of end conditions in advanced monotonic and cyclic triaxial testing on a range of geomaterials

et al. 2019

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Compressing samples between rigid platens, as in triaxial testing, induce non-uniform specimen stress, strain and pore water distributions. Although well recognised historically, the effects of such platen restraints are often disregarded or overlooked when performing or interpreting monotonic and cyclic experiments. This paper presents an updated appraisal of end conditions based on laboratory experiments run on sand, glacial till, intact and puttified chalk as part of offshore piling research projects. Monotonic and cyclic triaxial tests are reported that incorporated local strain and pore pressure sensors and a range of platen configurations. New insights are reported regarding the small-to-large behaviour and undrained cyclic pore water pressure measurement.

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Emil Ushev

The behaviour of Bolders Bank glacial till under undrained cyclic loading

Anisotropic Stiffness and Shear Strength Characteristics of a Stiff Glacial Till

Field Investigations into the Axial Loading Response of Displacement Piles in Chalk

An appraisal of end conditions in advanced monotonic and cyclic triaxial testing on a range of geomaterials

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