Dragload of pile groups in consolidating non-Darcian clays

In the present study, the behaviour of pile groups with flexible cap in consolidating non-Darcian soil is investigated in terms of dragloads and downdrag. The effective stresses and the settlements are computed at different depths of the soil layers using a non-linear, one-dimensional consolidation...

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Bibliographic Details
Published in:Proceedings of the Institution of Civil Engineers. Geotechnical engineering 2018-08, Vol.171 (4), p.295-309
Main Authors: Mishra, Anumita, Patra, Nihar Ranjan
Format: Article
Language:English
Subjects:
Clay
Consolidation
Downdrag
Hyperbolic functions
Permeability
Pile groups
Pile settlement
Piles
Settling
Soil
Soil investigations
Soil layers
Soil modulus
Soil permeability
Soil settlement
Soils
Stresses
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Summary:In the present study, the behaviour of pile groups with flexible cap in consolidating non-Darcian soil is investigated in terms of dragloads and downdrag. The effective stresses and the settlements are computed at different depths of the soil layers using a non-linear, one-dimensional consolidation equation for variable permeability and the non-Darcian condition. The relationship between displacements and shear stresses at the pile–soil interface and at the pile tip are modelled using a hyperbolic function. The proposed model is validated with the reported experimental results. The effects of pile spacing, slenderness ratio, soil modulus, pile modulus and the effects of non-Darcian parameters (α and n) on the developed dragload and downdrag have been studied for line pile groups (3 × 1), square pile groups (2 × 2, 3 × 3 and 5 × 5) and rectangular pile groups (3 × 2). It is observed that the central pile of a 5 × 5 pile group mobilises only about 30–45% of dragload as compared to the single piles during 1 year to 10 years of consolidation. In a 2 × 2 pile group, only 20–30% of ultimate pile settlement is attained after 5 years of consolidation owing to the non-Darcian condition, in comparison to 90% of ultimate settlement for the Darcian flow condition.
ISSN:1353-2618
1751-8563
DOI:10.1680/jgeen.17.00169