Fracture Process and Instability Precursor Determination of Freeze-thaw Red Sandstone Based on Acoustic Emission Monitoring

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2024-07-20 DOI:10.17531/ein/191193

Mengchen Yun, Jianxi Ren, Liang Zhang, Xu Chen

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Abstract

Research on the damage and fracture mechanism of freeze-thaw (F-T) rocks under loading is a key scientific endeavor derived from numerous safety concerns in cold region rock mass engineering. This study analyzed the relationship between the entire triaxial compression process of the red sandstone and acoustic emission parameters. Based on the nonlinear growth characteristics of cumulative event counts of acoustic emission, a predictive method was proposed for determining the crack initiation strength, damage strength, and failure strength of F-T sandstone. The results demonstrated that this method exhibited good consistency with the crack volume strain approach and accurately and conveniently predicted sample failure strength. The fitted curve of the equation closely aligned with experimental data. These findings offer insights into the classification of damage and fracture mechanisms in F-T sandstone and provide valuable groundwork for research on rock failure prediction and forecasting methods employing acoustic emission monitoring.

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基于声发射监测的冻融红砂岩断裂过程和不稳定性前兆测定

研究冻融（F-T）岩石在荷载作用下的破坏和断裂机理，是寒冷地区岩体工程中众多安全问题衍生出的一项重要科学工作。本研究分析了红砂岩整个三轴压缩过程与声发射参数之间的关系。根据声发射累积事件计数的非线性增长特征，提出了一种预测方法，用于确定 F-T 砂岩的裂纹起始强度、破坏强度和破坏强度。结果表明，该方法与裂缝体积应变法具有良好的一致性，能准确、方便地预测样品的破坏强度。方程的拟合曲线与实验数据密切吻合。这些发现为 F-T 砂岩的破坏和断裂机制分类提供了见解，并为利用声发射监测进行岩石破坏预测和预报方法的研究奠定了宝贵的基础。

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Eksploatacja i Niezawodność – Maintenance and Reliability

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