表征(材料科学)
分形
油页岩
地质学
比例(比率)
压力(语言学)
岩土工程
矿物学
材料科学
数学
哲学
古生物学
地图学
纳米技术
地理
数学分析
语言学
作者
Baofeng Lan,Ruidong Yang,Zhonghu Wu,Haishen Jiang,Xin-Zheng Li
出处
期刊:Fractal and fractional
[Multidisciplinary Digital Publishing Institute]
日期:2024-02-29
卷期号:8 (3): 142-142
被引量:3
标识
DOI:10.3390/fractalfract8030142
摘要
To better understand the influence of different levels of two-way stress differences on the development of damage in Anchang diametral laminar shale in the northern Qianbei area, a numerical model of laminar shale with a representative fine-scale structure was established by using RFPA3D-CT. A triaxial compression test was conducted; a three-dimensional mesoscale fracture box dimension algorithm based on digital images was generated by using MATLAB R2020b; and the fractal characteristics were quantitatively analyzed. The results showed that under the influence of the horizontal stress ratio and two-way stress, the greater the two-way stress is, the more notable the plastic characteristics of specimen damage are, and the higher the residual strength is. The specimens with lower two-way stress exhibited obvious brittle damage characteristics. The difficulty degree of complex fracture network formation increased with the increase in the horizontal tension ratio, and the degree of increase in the fracture network complexity gradually decreased. At a horizontal stress ratio of 1.25, the fractal dimension was the highest, which indicates that the cracks were the most pronounced. Fracture formation after specimen damage was the most common phenomenon. Under the condition of a lower horizontal stress ratio, a large number of fracture structures could be generated in shale specimens after damage, promoting the expansion of natural fractures.
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