Coupling dynamic in situ X-ray micro-imaging and indentation: A novel approach to evaluate micromechanics applied to oil shale

Author:

Voltolini Marco,Rutqvist Jonny,Kneafsey Timothy

Publisher

Elsevier BV

Subject

Organic Chemistry,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering

Reference47 articles.

1. Agapito J, and Hardy M. Induced horizontal stress method of pillar design in oil shale. In Proc. 15th Oil Shale Symposium, Colorado School of Mines, Golden, 1982 (pp. 191-197); 1982.

2. Digital volume correlation: three-dimensional strain mapping using X-ray tomography;Bay;Exp Mech,1999

3. Instrumented nanoindentation and 3D mechanistic modeling of a shale at multiple scales;Bennett;Acta Geotech,2015

4. Sealing shales versus brittle shales: a sharp threshold in the material properties and energy technology uses of fine-grained sedimentary rocks;Bourg;Environ Sci Technol Lett,2015

5. Digital volume correlation applied to X-ray tomography images from spherical indentation tests on lightweight gypsum;Bouterf;Strain,2014

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