Use and misuse of the isotache concept with respect to creep hypotheses A and B

Degago, Samson Abate; Grimstad, Gustav; Jostad, Hans Petter; Nordal, Steinar; Olsson, Mats

doi:10.1680/geot.9.p.112

Cited by 59 publications

(27 citation statements)

References 30 publications

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“…These results highlight that predictions using the SSC model vary significantly with the initial strain rate (this finding has also been noted by Degago et al [10]). In this case we face a dilemma in using SSC to predict field consolidation.…”

Section: Thickness Effectssupporting

confidence: 85%

Examination on Time-Dependent Soil Models in One-Dimensional Consolidation

Yuan

Whittle

2013

Springer Series in Geomechanics and Geoengineering

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Abstract. This paper reviews the performance of two time-dependent constitutive models in predictions of one-dimensional consolidation. The Soft-Soil Creep model [1] is an example of an elastic-viscoplastic formulation that incorporates a timedependent state variable to estimate viscoplastic deformation. We show that the SSC model is equivalent to the isotache formulation proposed by Imai [2], as both are based on a unique relationship between stress, void ratio and the viscoplastic component of void ratio rate. Simulations of 1-D consolidation confirm that both models represent Hypothsis B behavior, where the axial strain at the End of Primary (EOP) consolidation is dependent on the depth of the clay layer. The effects of specimen thickness and the phenomenon of pore pressure increase at the start of consolidation are discussed in detail. Our interpretation highlights the importance of assumptions regarding the initial strain rate on the behavior observed at different scales under a given applied increment of loading.

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Section: Thickness Effectssupporting

confidence: 85%

Examination on Time-Dependent Soil Models in One-Dimensional Consolidation

Yuan

Whittle

2013

Springer Series in Geomechanics and Geoengineering

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“…Some researchers consider that EOP is independent of sample thickness.A summary of some of the discussionscan be found in Mesri (2003) and Leroueil (2006).However, for clay soils many engineers now accept that EOP is not a unique parameter and depends on various factors such as applied stress and sample / layer thickness (Degago et al, 2011).…”

Section: Influence Of Sample Thicknessmentioning

confidence: 99%

Predictions of settlement in peat soils

Long

Boylan²

2013

QJEGH

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Abstract:Laboratory predictions of the compression behaviour of peat are compared with field data through use of a database of laboratory tests from 14 sites and information from full scale field loading at 5 sites. Data presented confirms the complexity of the deposits.Nonetheless from the point of view of normal engineering works, calculations based on laboratory test data are likely to give reasonable predictions of the magnitude of immediate and primary compression.Standard (20 mm thickness) samples may give misleading data on time for primary consolidation.Thicker samples, e.g. 50 mm, should be used. Sampling by conventional samplers, as used for mineral soils, can cause densification of the peat resulting in non-conservative design parameters. It was found that the data presented follow the C α /C c law of compressibility. There is also is some evidence to suggestthat the H 2 scaling law may be applicable. Good correlations were found between vertical yield stress (p vy ') and compression index (C c ) and index parameters such as water content (w i ) and void ratio (e 0 ).Conventional staged construction with surcharge loading may be successfully applied to peat soils as long as adequate drainage exists to permit consolidation over reasonable time intervals.

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“…Degago et al [19] have noted that time-dependent settlements of thick soft clay layers in the field tend to be analysed based on the behaviour of thin laboratory soil samples, despite the significantly longer primary consolidation times associated with the thicker field layers. Ladd et al [20] were the first to raise the issue of whether creep acts as a separate phenomenon in parallel with primary consolidation.…”

Section: Review Of Analytical Design Methodsmentioning

confidence: 99%

“…Isotache models (Hypothesis B) are based on the principle that the prevailing creep rate at any time is defined by the current state of the soil only, namely the current void ratio and effective stress, e.g. [19].…”

Section: Review Of Analytical Design Methodsmentioning

confidence: 99%