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冻融循环条件下砂岩物理力学劣化特性的实验研究
引用本文:王创业,李仕璋,刘沂琳. 冻融循环条件下砂岩物理力学劣化特性的实验研究[J]. 科学技术与工程, 2021, 21(23): 9969-9975
作者姓名:王创业  李仕璋  刘沂琳
作者单位:内蒙古科技大学矿业研究院,包头014010
基金项目:内蒙古自治区自然科学基金(2018MS05037)
摘    要:为研究冻融循环对岩石的物理力学性质劣化影响,选取砂岩为试样进行冻融循环实验、核磁共振实验和单轴压缩声发射实验.研究结果表明:当冻融循环达到30次数时,试样外观首先发生劣化;试样的孔隙率与冻融循环次数呈正相关,而束缚流体饱和度则呈负相关;冻融循环次数的增加会使得试样单轴压缩过程中声发射事件率的变化趋势发生改变、临近破坏时...

关 键 词:冻融循环  孔隙率  声发射  砂岩  劣化
收稿时间:2021-01-25
修稿时间:2021-06-02

Experimental Study on Physical and Mechanical Deterioration Characteristics of Sandstone under Freeze-thaw Cycle
Wang Chuangye,Li Shizhang,Liu Yilin. Experimental Study on Physical and Mechanical Deterioration Characteristics of Sandstone under Freeze-thaw Cycle[J]. Science Technology and Engineering, 2021, 21(23): 9969-9975
Authors:Wang Chuangye  Li Shizhang  Liu Yilin
Affiliation:Institute of Mining Engineering, Inner Mongolia University of Science and Technology,Institute of Mining Engineering, Inner Mongolia University of Science and Technology,Institute of Mining Engineering, Inner Mongolia University of Science and Technology
Abstract:The sandstone were selected as samples for the freeze-thaw cycle experiment, nuclear magnetic resonance experiment, and uniaxial to study the influence of the freeze-thaw cycle on the deterioration of rocks'' physical and mechanical properties compression acoustic emission experiment. The results show that when the freeze-thaw cycles reach 30 times, the sample''s appearance deteriorates first. The sample''s porosity is positively correlated with the number of freeze-thaw cycles, while the bound fluid saturation is negatively correlated. The increase of freeze-thaw cycles will change the changing trend of acoustic emission event rate during uniaxial compression of the sample, and the missing area of low event rate near failure will decrease and be the smallest at 30 cycles. The peak energy rate of acoustic emission decreases with the increase of freeze-thaw cycles. The average energy rate ratio to the peak energy rate in the steady period increases continuously, reaching the highest at 30 freeze-thaw cycles. Thirty freeze-thaw cycles may be defined as the dividing line of rock sample deterioration caused by freeze-thaw cycles.
Keywords:freeze-thaw cycle   porosity   acoustic emission   sandstone   deterioration
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