D F Glynn scite author profile

D F Glynn

5Publications

47Citation Statements Received

51Citation Statements Given

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A new method of measuring plastic limit of fine materials

Sivakumar¹,

Glynn²,

Cairns³

et al. 2009

Géotechnique

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Index properties such as the liquid limit and plastic limit are widely used to evaluate certain geotechnical parameters of fine-grained soils. Measurement of the liquid limit is a mechanical process, and the possibility of errors occurring during measurement is not significant. However, this is not the case for plastic limit testing, despite the fact that the current method of measurement is embraced by many standards around the world. The method in question relies on a fairly crude procedure known widely as the ‘thread rolling' test, though it has been the subject of much criticism in recent years. It is essential that a new, more reliable method of measuring the plastic limit is developed using a mechanical process that is both consistent and easily reproducible. The work reported in this paper concerns the development of a new device to measure the plastic limit, based on the existing falling cone apparatus. The force required for the test is equivalent to the application of a 54 N fast-static load acting on the existing cone used in liquid limit measurements. The test is complete when the relevant water content of the soil specimen allows the cone to achieve a penetration of 20 mm. The new technique was used to measure the plastic limit of 16 different clays from around the world. The plastic limit measured using the new method identified reasonably well the water content at which the soil phase changes from the plastic to the semi-solid state. Further evaluation was undertaken by conducting plastic limit tests using the new method on selected samples and comparing the results with values reported by local site investigation laboratories. Again, reasonable agreement was found.

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A case study: delayed failure of a deep cutting in lodgement till

Hughes

Sivakumar

Glynn

2007

Proceedings of the Institution of Civil Engineers - Geotechnica

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Recent research on the delayed failure of cuttings in clay clearly recognises and predicts progressive delayed failure of deep cuttings. This is due to a combination of strain-softening, weathering, dissipation of negative excess pore water pressure generated at the time of excavation, and frequent occurrence of prolonged periods of wet weather. There have been several slope failures of this kind in Northern Ireland. This paper discusses a case study based on a failure of a deep cutting, excavated at a slope of 1 in 2, on the A1 near Dromore (County Down) in Northern Ireland. The cutting was in lodgement till, a stiff, heavily overconsolidated clay. The failure occurred approximately 30 years after the cutting was excavated, following a prolonged period of heavy rainfall. An analysis of the failure, together with laboratory test data on soil samples taken from the site, confirmed that by using long-term soil strength parameters the factor of safety of this slope was unity. The conclusion of the analysis is that slopes excavated in this soil should be designed (and assessed) on long-term strength parameters.

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Monopiles subjected to uni- and multi-lateral cyclic loading

Nanda¹,

Arthur²,

Sivakumar³

et al. 2017

Proceedings of the Institution of Civil Engineers - Geotechnica

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Discussion of “Fadum on Soils Classification”

Fadum

Stratton

Belcher

et al. 1948

T. Am. Soc. Civ. Eng.

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I. G. Doran

Sivakumar¹,

Glynn²

2007

Géotechnique

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D F Glynn

A new method of measuring plastic limit of fine materials

A case study: delayed failure of a deep cutting in lodgement till

Monopiles subjected to uni- and multi-lateral cyclic loading

Discussion of “Fadum on Soils Classification”

I. G. Doran

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