页岩样品微观结构与岩石性质实验研究

Q2 Earth and Planetary Sciences 岩石力学与工程学报 Pub Date : 2014-08-01 DOI:10.13722/J.CNKI.JRME.2014.S2.007
Xian Shi, Yuanfang Cheng, Shu Jiang, Dongsheng Cai, Tao Zhang
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引用次数: 16

摘要

页岩力学性质的研究对页岩气藏的完井和增产具有重要意义。为此,对下扬子盆地古生界海相页岩的地质力学性质进行了研究。利用氩离子抛光机、高溶液CT和扫描电镜对页岩样品进行处理,观察其显微结构。并用XRD分析了该页岩的矿物组成。为了获得页岩的压缩特性,进行了划伤试验和单轴试验。此外,为了减少天然裂缝和岩石松弛的负面影响,模拟了不同有效应力条件下的加载和卸载情况。最后,在三轴岩石试验系统上进行了多阶段三轴压缩变形试验,计算了内聚强度和固有摩擦角。页岩力学性质的研究对页岩气藏的完井和增产具有重要意义。为此,对下扬子盆地古生界海相页岩样品进行了系统的实验研究,研究了海相页岩样品的微观结构、矿物组成和地质力学性质。试验结果表明,除天然裂缝外,随围压的增大,杨氏模量和泊松比均增大。卸载条件下杨氏模量随围压的减小而增大,泊松比大于加载条件下的泊松比。在多段三轴压缩试验中,固有摩擦角在40°左右,脆性指数高的页岩试样呈裂缝网络状开裂。该研究对页岩力学性质的研究有较大帮助,为完井设计和增产提供技术参数。
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Experimental study of microstructure and rock properties of shale samples
The study of shale mechanical properties is very important for well completion and stimulation in shale gas reservoirs. Thus,the geomechanical properties of Paleozoic marine shale in Lower Yangtze Basin were studied.With the application of argon ion polisher,high-solution CT and scanning electron microscope,the shale samples were processed and their microstructures were observed. Besides, mineral compositions of this shale were analyzed by XRD technique. In order to get the compression characteristic of shale, the scratch and uniaxial experiments were performed. In addition, the loading and unloading situations were simulated under different effective stress conditions in order to reduce negative effects of natural fissures and rock relaxation. Finally,the multi-stage triaxial compression deformation experiment was performed on the triaxial rock testing system for calculating cohesive strength and inherent friction angle. The study of shale mechanical properties is veryimportant for well completion and stimulation in shale gas reservoirs. Thus, a systematic experiments was performed on Paleozoic marine shale samples collected from Lower Yangtze Basin, and the microscopic structure,mineral compositions and the geomechanical properties of marine shale samples were studied. Testing result shows that except for shale sample with natural fractures,both the values of Youngs modulus and Poissons ratio increase with the increase of confining pressure. But in the unloading condition, the Young s modulus increases with the decrease of confining pressure,whereas the Poisson s ratio is greater than that in its loading condition. The inherent friction angle is within approximately 40°and the shale sample with high brittleness index tends to crack as fracture network according to the multi-stage triaxial compression test. This research is greatly helpful for the study of shale mechanical properties,and provides technical parameters for well completion design and stimulation.
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来源期刊
岩石力学与工程学报
岩石力学与工程学报 Earth and Planetary Sciences-Geology
CiteScore
4.70
自引率
0.00%
发文量
13155
期刊介绍:
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Dynamic properties and fracture characteristics of rocks subject to impact loading Development and application of numerical limit analysis for geotechnical materials A monte carlo simulation for discontinuity orientations using bivariate empirical distribution Experimental study of microstructure and rock properties of shale samples Strength of unsaturated lime-treated expansive clay in Hefei
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