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Influence of geochemical features on the mechanical properties of organic matter in shale
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  • Junliang Zhao,
  • Wei Zhang,
  • Dongxiao Zhang,
  • Ren Wei,
  • Yuhan Wang
Junliang Zhao
Peking University
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Wei Zhang
Peking University
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Dongxiao Zhang
Southern University of Science and Technology

Corresponding Author:[email protected]

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Ren Wei
Peking University
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Yuhan Wang
Peking University
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Abstract

Organic matter is an important constituent in organic-rich shale, which influences the hydrocarbon generation, as well as the mechanical behavior, of shale reservoirs. The physical, chemical, and mechanical properties of organic matter depend on the source material and the thermal evolution process. Previous works attempted to investigate the impact of thermal maturation on the mechanical properties of organic matter. However, owing to the lack of maceral classification and the limitation of data volume during the mechanical measurement, no consistent trend has been identified. In this work, vitrinite reflectance test, scanning electron microscope observation, nanoindentation, and micro-Raman analysis were combined for geochemical and mechanical characterization. A total of 114 test areas were selected for testing, enhancing reliability of the test results. The Young’s moduli of organic matter are from 3.57 GPa to 8.32 GPa. With the same thermal maturity, inertinite has the highest Young’s modulus, while the modulus of bitumen is the lowest. The Young’s moduli of different organic types all increase with vitrinite reflectance. When vitrinite reflectance increases from 0.62% to 1.13%, the modulus of inertinite and vitrinite is increased by 57% and 78%, respectively. In addition, with the increase of thermal maturity, the micro-Raman test results show a decrease of intensity ratio of D peak to G peak, indicating an increase of the ordered structure in organic matter. Organic type and thermal maturity reflect the diversity of the source material and chemical structure change during the thermal evolution process, and together they influence the mechanical properties of organic matter.
Sep 2020Published in Journal of Geophysical Research: Solid Earth volume 125 issue 9. 10.1029/2020JB019809