Abstract
This paper studies the anisotropic characteristics of shale and the difference in mechanical performance between deep shale and outcrop shale. The outcrop shale was collected from the Shuanghe section in Changning County, southern Sichuan, and the deep shale was collected from the Wells Yi201 and Lu202. Study their basic mechanical parameters, failure modes, and wave velocity responses through laboratory tests. Research shows that with the increase of bedding angle, the deformation mode has the trend from elastic deformation to plastic deformation in high-stress state. When the bedding angles are 0°, 30°, and 45°, the weak bedding surface plays a leading role in the formation of the failure surface trend. As the bedding angle increases to 60° and 90°, its influence is weakened. The tensile strength, elastic modulus, and wave velocity decrease with the increase of bedding angle. The compressive strength and Poisson’s ratio have the law of U-type change, there are higher values at 0° and 90°, and the lowest values are at 30°. The brittleness index first increases and then decreases with the increase of the bedding angle. The tensile strength and Poisson’s ratio of outcrop shale and deep shale are close, but the compressive strength of deep shale is only 1/3 of outcrop shale, the elastic modulus is only 3/4 of outcrop shale, and the failure of deep shale is accompanied by instability failure.
Highlights
Shale gas will play an important role in the global energy structure in the future [1, 2]
Its mechanical characteristics in different directions are one of the important factors to be considered in shale gas drilling stability, hydraulic fracturing design, and field construction [3,4,5,6]
Lekhnitskii et al [8] general equation of anisotropic elastic theory is derived, which provides a theoretical basis for the study of anisotropic problems
Summary
Shale gas will play an important role in the global energy structure in the future [1, 2]. Cho et al [14] studied the anisotropy of elastic parameters and strength of gneiss, shale, and schist at different angles through uniaxial compression and Brazilian splitting tests. Based on the previous research experience, this paper makes an indepth study of outcrop shale of Longmaxi Formation in Sichuan Basin on the difference of multidirectional mechanical properties of shale. Erefore, this paper selects the deep shale of Longmaxi Formation in Sichuan Basin, China, to carry out general mechanical experiments, and makes a comparative analysis and summary of the similarities and differences between outcrop and deep shale mechanical parameters, in order to better match and apply the existing research results of outcrop shale anisotropy to deep shale gas reservoir exploitation in the future and provide basic data support for shale gas exploration and development Most of the existing research data are the results of outcrop shale measurements. e mechanical properties of outcrop/ deep shale are not completely the same due to the influence of stratum structure, light, and temperature and cannot be applied arbitrarily. erefore, this paper selects the deep shale of Longmaxi Formation in Sichuan Basin, China, to carry out general mechanical experiments, and makes a comparative analysis and summary of the similarities and differences between outcrop and deep shale mechanical parameters, in order to better match and apply the existing research results of outcrop shale anisotropy to deep shale gas reservoir exploitation in the future and provide basic data support for shale gas exploration and development
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