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Mjölnir: a miniature triaxial rock deformation apparatus for 4D synchrotron X-ray microtomography

Ian B. Butler, Florian Fußeis, Alexis Cartwright‐Taylor, Michael Flynn

2020Journal of Synchrotron Radiation23 citationsDOIOpen Access PDF

Abstract

An X-ray transparent experimental triaxial rock deformation apparatus, here named `Mjölnir', enables investigations of brittle-style rock deformation and failure, as well as coupled thermal, chemical and mechanical processes relevant to a range of Earth subsurface environments. Designed to operate with cylindrical samples up to 3.2 mm outside-diameter and up to 10 mm length, Mjölnir can attain up to 50 MPa confining pressure and in excess of 600 MPa axial load. The addition of heaters extends the experimental range to temperatures up to 140°C. Deployment of Mjolnir on synchrotron beamlines indicates that full 3D datasets may be acquired in a few seconds to a few minutes, meaning full 4D investigations of deformation processes can be undertaken. Mjölnir is constructed from readily available materials and components and complete technical drawings are included in the supporting information.

Topics & Concepts

SynchrotronDeformation (meteorology)BrittlenessMaterials scienceSynchrotron radiationOverburden pressureGeologyMineralogyComposite materialOpticsGeotechnical engineeringPhysicsSeismic Imaging and Inversion TechniquesRock Mechanics and ModelingSoil and Unsaturated Flow
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