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页岩有机质纳米力学性质研究进展 被引量:5

Progress in characterization of nanoscale mechanical properties of organic matter in shale
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摘要 页岩有机质纳米尺度下的力学行为目前不够明确且利用常规实验仪器无法准确获得,表征其纳米尺度下的力学性质,对于搭建微观-宏观岩石力学模型和实现高效水力压裂是极具现实意义的。基于近年国内外关于页岩有机质纳米力学性质表征等方面所取得的研究进展,总结了目前常用的表征技术、力学性质主要特征及主控因素。综合结果表明,纳米压痕和原子力显微镜是目前表征纳米力学性质常用的技术与方法,两者在精度、分辨率、设备技术等方面都存在各自的优势或缺陷;目前有机质纳米力学性质的测定主要集中在弹性模量和硬度,成熟度和温度在不同程度上改变着有机质的内部结构,从而改变其力学性质;提出了"多尺度""多技术""多角度""多学科"等工作设想与建议。 At present the mechanical behavior of shale organic matter at nanometer scale is neither clear nor able to be accurately obtained by conventional experimental instruments.It is of great practical significance to characterize the mechanical properties at nanometer scale for building a micro-macro rock mechanics model and realizing high efficiency hydraulic fracturing.Based on the recent advances in characterization of nanoscale mechanical properties of organic matter in shale at home and abroad,commonly used characterization techniques,main characteristics and main controlling factors of mechanical properties are reviewed and summarized in this paper.It is shown that nano-indentation and atomic force microscope are the commonly used techniques and methods to characterize nano mechanical properties at present,both of which have their own advantages or defects in precision,resolution,equipment technology and so on.At present,determination of nanomechanical properties of organic matter mainly focuses on elastic modulus and hardness.Maturity and temperature change the internal structure of organic matter to varying degrees,thus changing its mechanical properties.In the end,the paper puts forward some ideas and suggestions for the exploration and development of shale gas in China.
作者 王晓蕾 司树杰 阿窦 WANG Xiaolei;SI Shujie;A Dou(Department of Mining Engineering,Laliang University,Laliang 030000 China;Key of Laboratory of Maintenance and Inspection of Coal Mine Mechanical Equipment of Lüliang City,Lüliang 033000,China;Second Oil Production Plant in Qinghai Oilfield Company,PetroChina,Haixi 817500,China)
机构地区 吕梁学院矿业工程系 煤矿机械装备维护与检测试验吕梁市重点实验室 中国石油青海油田分公司采油二厂
出处 《科技导报》 CAS CSCD 北大核心 2020年第12期115-128,共14页 Science & Technology Review
基金 山西省高等学校科技创新项目(2019L0954)。
关键词 页岩 有机质 纳米力学性质 主控因素 shale organic matter nanoscale mechanical properties main controlling factors
分类号 TU452 [建筑科学—岩土工程]
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科技导报
2020年 第12期

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