Assessing mechanical properties of organic matter in shales: Results from coupled nanoindentation/SEM-EDX and micromechanical modeling

Mechanical properties of organic matter in fine grained source rocks has been the subject of extensive research. Most studies on kerogen have been performed on kerogen samples isolated by dissolving the rock matrix. However, recent studies have shown significant microstructural alteration of kerogen...

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Published in	Journal of petroleum science & engineering Vol. 165; pp. 313 - 324
Main Authors	Mashhadian, Mohammad, Verde, Alexander, Sharma, Prashant, Abedi, Sara
Format	Journal Article
Language	English
Published	Elsevier B.V 01.06.2018
Subjects	Energy dispersive X-ray spectroscopy (EDX) Kerogen Mechanical properties Miromechanical modeling Nanoindentation Shale rocks Shale rocks Mechanical properties Kerogen Energy dispersive X-ray spectroscopy (EDX) Nanoindentation Miromechanical modeling
Online Access	Get full text
ISSN	0920-4105 1873-4715
DOI	10.1016/j.petrol.2018.02.039

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Abstract	Mechanical properties of organic matter in fine grained source rocks has been the subject of extensive research. Most studies on kerogen have been performed on kerogen samples isolated by dissolving the rock matrix. However, recent studies have shown significant microstructural alteration of kerogen samples after demineralization leading to alteration of their mechanical properties. In this work, in order to study the role of organic matter on mechanical properties of the rock, both organic-rich and organicfree carbonate-rich shale rocks are investigated. A recently developed nano-chemomechanical characterization method is used to directly correlate mechanical properties of both organic-rich and organic-free samples with their chemical composition and mineralogy at micrometer length scales using coupled nanoindentation and Energy Dispersive X-ray Spectroscopy (EDX) technique. The experimental results are used in multiscale structure thought models in which the role of organic matter is modeled as a matrix surrounding inclusions in the composite. Application of these models to the interpretation of nanoindentation results allows us to obtain consistent mechanical properties for the main constituents of these samples, i.e. organic matter and calcite, which are in excellent agreement with the results in the literature. Moreover, adequate agreement is observed between model predictions and experimental measurements of elastic properties of carbonate-rich shale rocks at macroscale. •Both organic-rich and organic-free carbonate-rich shale rocks are investigated.•Coupled nanoindentation and Energy Dispersive X-ray Spectroscopy (EDX) technique is used to characterize samples.•The experimental results are used in multiscale structure thought models.•Consistent mechanical properties for the main constituents of these samples, i.e. organic matter and calcite.•Adequate agreement is observed between model predictions and experimental measurements at macroscale.
AbstractList	Mechanical properties of organic matter in fine grained source rocks has been the subject of extensive research. Most studies on kerogen have been performed on kerogen samples isolated by dissolving the rock matrix. However, recent studies have shown significant microstructural alteration of kerogen samples after demineralization leading to alteration of their mechanical properties. In this work, in order to study the role of organic matter on mechanical properties of the rock, both organic-rich and organicfree carbonate-rich shale rocks are investigated. A recently developed nano-chemomechanical characterization method is used to directly correlate mechanical properties of both organic-rich and organic-free samples with their chemical composition and mineralogy at micrometer length scales using coupled nanoindentation and Energy Dispersive X-ray Spectroscopy (EDX) technique. The experimental results are used in multiscale structure thought models in which the role of organic matter is modeled as a matrix surrounding inclusions in the composite. Application of these models to the interpretation of nanoindentation results allows us to obtain consistent mechanical properties for the main constituents of these samples, i.e. organic matter and calcite, which are in excellent agreement with the results in the literature. Moreover, adequate agreement is observed between model predictions and experimental measurements of elastic properties of carbonate-rich shale rocks at macroscale. •Both organic-rich and organic-free carbonate-rich shale rocks are investigated.•Coupled nanoindentation and Energy Dispersive X-ray Spectroscopy (EDX) technique is used to characterize samples.•The experimental results are used in multiscale structure thought models.•Consistent mechanical properties for the main constituents of these samples, i.e. organic matter and calcite.•Adequate agreement is observed between model predictions and experimental measurements at macroscale.
Author	Mashhadian, Mohammad Sharma, Prashant Abedi, Sara Verde, Alexander
Author_xml	– sequence: 1 givenname: Mohammad surname: Mashhadian fullname: Mashhadian, Mohammad organization: Zachry Department of Civil Engineering, Texas A&M University, USA – sequence: 2 givenname: Alexander surname: Verde fullname: Verde, Alexander organization: Harold Vance Department of Petroleum Engineering, Texas A&M University, USA – sequence: 3 givenname: Prashant surname: Sharma fullname: Sharma, Prashant organization: Harold Vance Department of Petroleum Engineering, Texas A&M University, USA – sequence: 4 givenname: Sara surname: Abedi fullname: Abedi, Sara email: sara.abedi@tamu.edu organization: Zachry Department of Civil Engineering, Texas A&M University, USA
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Snippet	Mechanical properties of organic matter in fine grained source rocks has been the subject of extensive research. Most studies on kerogen have been performed on...
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SubjectTerms	Energy dispersive X-ray spectroscopy (EDX) Kerogen Mechanical properties Miromechanical modeling Nanoindentation Shale rocks
Title	Assessing mechanical properties of organic matter in shales: Results from coupled nanoindentation/SEM-EDX and micromechanical modeling
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