Edward Alan Button scite author profile

The mechanical behavior of clay shales is of great interest in many branches of geo-engineering, including nuclear waste disposal, underground excavations, and deep well drilling. Observations from test galleries (Mont Terri, Switzerland and Bure, France) in these materials have shown that the rock mass response near the excavation is associated with brittle failure processes combined with bedding parallel shearing. To investigate the brittle failure characteristics of the Opalinus Clay recovered from the Mont Terri Underground Research Laboratory, a series of 19 unconfined uniaxial compression tests were performed utilizing servocontrolled testing procedures. All specimens were tested at their natural water content with loading approximately normal to the bedding. Acoustic emission (AE) measurements were utilized to help quantify stress levels associated with crack initiation and propagation. The unconfined compression strength of the tested specimens averaged 6.9 MPa. The crack initiation threshold occurred at approximately 30% of the rupture stress based on analyzing both the acoustic emission measurements and the stress-strain behavior. The crack damage threshold showed large variability and occurred at approximately 70% of the rupture stress.

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Experimental Study of Brittle Behavior of Clay Shale in Rapid Triaxial Compression

Amann

Kaiser

Button³

2011

Rock Mech Rock Eng

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The brittle failure behavior of an over-consolidated clay shale (Opalinus Clay) in undrained rapid triaxial compression was studied. The confining stress levels were chosen to simulate the range of confining stresses relevant for underground excavations at the Mont Terri Underground Research Laboratory, and to investigate the transition from axial splitting failure to macroscopic shear failure. Micro-crack initiation was observed throughout the confining stress range utilized in this study at a differential stress of 2.1 MPa on average, which indicates that friction was not mobilized at this stage of brittle failure. The rupture stress was dependent on confinement indicating friction mobilization during the brittle failure process. With increasing confinement net volumetric strain decreased suggesting that dilation was suppressed, which is possibly related to a change in the failure mode. At confining stress levels B0.5 MPa specimen rupture was associated with axial splitting. With increasing confinement, transition to a macroscopic shearing mode was observed. Multi-stage triaxial tests consistently showed lower strengths than single-stage tests, demonstrating cumulative damage in the specimens. Both the Mohr-Coulomb and Hoek-Brown failure criteria could not satisfactorily fit the data over the entire confining stress range. A bi-linear or S-shaped failure criterion was found to satisfactorily fit the test data over the entire confinement range studied.

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Rockslide deformation monitoring with fiber optic strain sensors

Moore

Gischig

Button

et al. 2010

Nat. Hazards Earth Syst. Sci.

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Abstract. With micro-strain resolution and the capability to sample at rates of 100 Hz and higher, fiber optic (FO) strain sensors offer exciting new possibilities for in-situ landslide monitoring. Here we describe a new FO monitoring system based on long-gauge fiber Bragg grating sensors installed at the Randa Rockslide Laboratory in southern Switzerland. The new FO monitoring system can detect sub-micrometer scale deformations in both triggered-dynamic and continuous measurements. Two types of sensors have been installed: (1) fully embedded borehole sensors and (2) surface extensometers. Dynamic measurements are triggered by sensor deformation and recorded at 100 Hz, while continuous data are logged every 5 min. Deformation time series for all sensors show displacements consistent with previous monitoring. Accelerated shortening following installation of the borehole sensors is likely related to long-term shrinkage of the grout. A number of transient signals have been observed, which in some cases were large enough to trigger rapid sampling. The combination of short- and long-term observation offers new insight into the deformation process. Accelerated surface crack opening in spring is shown to have a diurnal trend, which we attribute to the effect of snowmelt seeping into the crack void space and freezing at night to generate pressure on the crack walls. Controlled-source tests investigated the sensor response to dynamic inputs, which compared an independent measure of ground motion against the strain measured across a surface crack. Low frequency signals were comparable but the FO record suffered from aliasing, where undersampling of higher frequency signals generated spectral peaks not related to ground motion.

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Tunnelling in tectonic melanges?accommodating the impacts of geomechanical complexities and anisotropic rock mass fabrics

Button

Riedmüller

Schubert

et al. 2004

Bull Eng Geol Environ

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Interpretation of displacement monitoring data for tunnels in heterogeneous rock masses

Schubert

Grossauer²,

Button

2004

International Journal of Rock Mechanics and Mining Sciences

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Interpretation of displacement monitoring data for tunnels in

Schubert

Grossauer²,

Button

2004

International Journal of Rock Mechanics and Mining Sciences

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Investigation for probabilistic prediction of shear strength properties of clay-rich fault gouge in the Austrian Alps

Liu¹,

Button²,

Klima³

2007

Engineering Geology

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Tunnelling under difficult conditions in the Himalayas / Tunnelbau unter schwierigen Bedingungen im Himalaja

Golser¹,

Button²

2011

Geomechanics and Tunnelling

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Difficulties in tunnel construction can be the result of the given geological and geotechnical conditions, the selection of suitable tunnelling methods as well as the experience and capability in implementing the chosen methods. The geological and geotechnical conditions in the Himalayas are characterised by numerous active faults, complex folding, and thrust zones which will always make tunnelling difficult, whatever method is used.Other circumstances resulting from the local contractual and cultural environment, only permit gradual improvement of the situation.Conventional steel supports, with their rather limited capability of supporting difficult ground, still remain the most common support method. Additional factors which influence tunnelling succes, are inadequate construction management, maintenance, availability of spare parts and particularly the lack of practical expertise due to the rapid turnover of mining crews and in middle management.Examples demonstrate the most common difficulties and the time and expense consumed in overcoming them, and the tedious and often incomprehensible decision-making processes.In contrast, there are a few highlights, which provide grounds for hope for archieving better results and development in the local tunnelling.

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