Strain-rate effects in deep marine clays from the Gulf of Guinea | Zendy

Seda Torisu | Zendy; JeanMichel Pereira | Zendy; Vincenzo De Gennaro | Zendy; Pierre Delage | Zendy; Alain Puech | Zendy

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Strain-rate effects in deep marine clays from the Gulf of Guinea

Author(s) -

Seda Torisu,

JeanMichel Pereira,

Vincenzo De Gennaro,

Pierre Delage,

Alain Puech

Publication year - 2012

Publication title -

géotechnique

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.775

H-Index - 135

eISSN - 1751-7656

pISSN - 0016-8505

DOI - 10.1680/geot.12.og.015

Subject(s) - shearing (physics) , geotechnical engineering , geology , strain rate , submarine pipeline , pore water pressure , shear (geology) , isotropy , shear stress , petrology , materials science , composite material , physics , quantum mechanics

International audienceCurrent developments in deepwater offshore oil production in the Gulf of Guinea (GoG) make it necessary to characterise the mechanical behaviour of the GoG deep-water sediments better. This paper examines some aspects of the strain-rate-dependent behaviour of intact and reconstituted GoG clay specimens. Results from isotropic compression and undrained shearing laboratory tests with changing rates of stress and strain are presented. They show that the soil generally follows an isotach behaviour, with clear strain-rate dependence of the stress-strain behaviour and pore pressure response in the undrained shear tests. The effects of structure and its degradation on the time-dependent response of the sediments seem to confirm general trends observed in other structured clays

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