岩土力学2025,Vol.46Issue(7):2023-2038,16.DOI:10.16285/j.rsm.2024.1164
裂隙砂岩声发射信号特征及破裂前兆识别研究
Acoustic emission signal characteristics and precursory recognition of rock failure in fractured sandstone
摘要
Abstract
Structural instability caused by the fracture and coalescence of rock bridges within rock masses under external loads is a common issue in slope and mining engineering.Quantifying and revealing the precursory characteristics of rock mass fracture is crucial for ensuring the stability of surrounding rock and preventing fracture instability.In order to investigate the precursory characteristics and failure mechanism of fractured sandstone during deformation and failure,a series of uniaxial compression tests was conducted on fractured sandstone specimens with six different ligament angles.The mechanical strength parameters,fracture modes,and multifractal characteristics of acoustic emission(AE)parameters were analyzed,and the time intervals between different AE parameter variances and key fracture points were discussed.The precursor identification and early-warning time based on the time function of AE hit rates and the variance of AE parameters were obtained.The results show that when the ligament angle increases from 0° to 150°,the elastic modulus and peak stress of fractured sandstone exhibit an inverted Gaussian-like trend,decreasing first and then increasing,and reaching the minimum values at a ligament angle of 60°.The failure mode transitions from indirect coalescence dominated by compression-shear cracks to direct coalescence dominated by tension-shear cracks.The spectrum width(∆α)exhibits an evolutionary trend of decreasing first and then increasing.The time function of AE hit rates and the variance of AE parameters can effectively identify early-warning points,sub-critical fracture points,unstable fracture points,and final failure points during the deformation and failure process.By comparing the warning times for the three key fracture feature points,it was found that the warning time of the method based on AE energy variance is the shortest,while that of the method based on AE rise time variance is the longest.Further comparisons indicate that the variance of AE energy,as a precursor factor,is more sensitive than the variances of AE count and AE rise time in identifying critical fracture points of rocks.关键词
裂隙砂岩/声发射/多重分形/前兆信息/临界慢化Key words
fractured sandstone/acoustic emission/multifractal/precursory information/critical slowing down分类
建筑与水利引用本文复制引用
雷瑞德,顾清恒,胡超,贺培,周林森..裂隙砂岩声发射信号特征及破裂前兆识别研究[J].岩土力学,2025,46(7):2023-2038,16.基金项目
安徽省煤炭安全精准开采工程实验室开放基金(No.ESCMP202305) (No.ESCMP202305)
煤矿安全高效开采省部共建教育部重点实验室开放基金(No.JYBSYS202306) (No.JYBSYS202306)
中国博士后科学基金面上项目(No.2023MD744136).This work was supported by the Open Fund of Engineering Laboratory for Safe and Precise Coal Mining of Anhui Province(ESCMP202305),the Open Fund of Key Laboratory of Safety and High-efficiency Coal Mining,Ministry of Education(JYBSYS202306)and China Postdoctoral Science Foundation(2023MD744136). (No.2023MD744136)
