Abstract
The occurrence of a shear band is often thought as the precursor of failure. To study the initiation of shear banding in gas hydrate-bearing sediments, two groups of triaxial compression tests combined with a CT (computer tomography) scan were conducted by triaxial CT-integrated equipment under two confining pressures and seven hydrate saturations. The macro stress–strain curves and the corresponding CT scanning images of the micro-structure and the distribution of the components were obtained. The geometric parameters of the shear bands were measured based on the CT images at four typical axial strains, respectively. The distribution characteristics of soil particles, water, hydrate and gas were also analyzed. It is shown that the existence of methane hydrate changes the mechanical property of hydrate-bearing sediment from plastic failure to brittle failure when the hydrate saturation is over 13%, which occurs in the range of the tests in this paper. The peak of the deviatoric stress increases with the hydrate saturation. The shear band is in either a single oblique line or inter-cross lines depending on the hydrate saturation, the effective confining pressure and the initial distribution of the gas hydrate. Most of the shear band surfaces are not straight, and the widths of the shear bands are almost non-uniformly distributed.
Highlights
The initiation of a shear band, a local zonal region with concentrated deformation [1], is related mainly to instability and bifurcation
The results show that the occurrence of shear band in gas hydrate bearing sediment (GHBS) is due to the damage of cohesion among numerous grains
It is shown that the deviatoric stress increases slowly with the axial strain till the peak; and the strength of the sample increase
Summary
The initiation of a shear band, a local zonal region with concentrated deformation [1], is related mainly to instability and bifurcation. Triaxial or plain strain experiments are often used to study the deformation instability and the failure modes in geomechanics. The results show clearly that the uniform response is followed by the occurrence of a diffused and heterogeneous deformation, after which a shear band forms. The development of a shear band is often the main reason of landslide and foundation pit failure [2]. The shear band is formed under the combined action of the external load and intrinsic natures of the soil layer and rock [3]. Concerns regarding the shear band are when to initiate and how to evolve
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