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- Title
Nanomechanics of organic-rich shales: the role of thermal maturity and organic matter content on texture.
- Authors
Abedi, Sara; Slim, Mirna; Ulm, Franz-Josef
- Abstract
Despite the importance of organic-rich shales, microstructural characterization and theoretical modeling of these rocks are limited due to their highly heterogeneous microstructure, complex chemistry, and multiscale mechanical properties. One of the sources of complexity in organic-rich shales is the intricate interplay between microtextural evolution and kerogen maturity. In this study, a suite of experimental and theoretical microporomechanics methods are developed to associate the mechanical properties of organic-rich shales both to their maturity level and to the organic content at micrometer and sub-micrometer length scales. Recent results from chemomechanical characterization experiments involving grid nanoindentation and energy-dispersive X-ray spectroscopy (EDX) are used in new micromechanical models to isolate the effects of maturity levels and organic content from the inorganic solids. These models enable attribution of the role of organic maturity to the texture of the indented material, with immature systems exhibiting a matrix-inclusion morphology, while mature systems exhibit a polycrystal morphology. Application of these models to the interpretation of nanoindentation results on organic-rich shales allows us to identify unique clay mechanical properties that are consistent with molecular simulation results for illite and independent of the maturity of shale formation and total organic content. The results of this investigation contribute to the design of a multiscale model of the fundamental building blocks of organic-rich shales, which can be used for the design and validation of multiscale predictive poromechanics models.
- Subjects
NANOMECHANICS; TEXTURES; ORGANIC compounds; NANOINDENTATION; X-ray spectroscopy; CRYSTAL morphology
- Publication
Acta Geotechnica, 2016, Vol 11, Issue 4, p775
- ISSN
1861-1125
- Publication type
Article
- DOI
10.1007/s11440-016-0476-2