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二氧化碳静态爆破的边坡振动场地效应和能量分析

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进行真三轴CO2静态爆破压裂实验和现场测试,获得压力曲线、试样裂隙分布、现场振动曲线和岩体破坏特征,并通过分析压力曲线和裂缝扩展特征来研究致裂原理,同时还利用窗函数傅里叶变换提取振动特征,以评估破岩现场边坡的结构安全。研究结果表明:(1)CO2 静态爆破的峰值振动速度在8 m处衰减至满足建筑物保护要求,比传统的钻爆法更安全;(2)CO2静态爆破引起的振动波形的主频高于钻爆法的,且随着距离的加长,振动能量的分布逐渐分散;(3)钻爆法的振动速度预测公式适用于CO2静态爆破的,且带高程的预测公式更为准确。根据压力曲线、试样裂隙分布和现场岩体损伤,提出CO2静态爆破的HIG 破岩模型,为新技术的研究提供了基础框架。在实验中没有采集到温度数据,今后迫切需要对聚能剂的瞬时放热特性和温度对CO2状态的影响进行研究。
Study of slope vibration site effects and energy analysis from CO2 static blasting
The novel CO2 static blasting method offered good prospects for application as it was more effective than mechanical rock breaking,less vibratory,less dusty and quieter than the traditional drill and blast method.We carried out both true triaxial CO2 static blasting fracturing experiments and rock-breaking site vibration monitoring experiments to extract vibration signal characteristics,focusing on slope safety.The results show that:1)the peak vibration velocity of CO2 static blasting decayed rapidly and dropped below 30 mm/s at 6 m;2)the principal frequency of the vibration waveform spectrum caused by CO2 static blasting was higher than that of the drill-and-blast method;3)the vibration velocity prediction formula used in the drill-and-blast method was applicable to CO2 static blasting,and the prediction formula with elevation was more accurate.An HIG fracturing model for CO2 static blasting is proposed,which provides a basic framework for research of new rock-breaking techniques.The vibration displacement of the slope under CO2 static blasting is minimal,and more attention should be paid to the exothermic and temperature measurement of the polyenergy agent in the future.

rock-breaking technologyCO2 static blastingvibration speedfracturing mechanismenergy calculation

王小飞、胡少斌、王恩元

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School of Safety Engineering,China University of Mining and Technology,Xuzhou 221116,China

Tunnel and Underground Engineering Institute,College of Civil and Transportation Engineering,Hohai University,Nanjing 210098,China

破岩技术 二氧化碳静态爆破 振动速度 致裂机理 能量计算

Key Project of the National Natural Science Foundation of ChinaNational Key Research and Development Programme of ChinaNatural Science Foundation of Jiangsu Province,ChinaMajor Scientific and Technological Innovation Project of Shandong Province,China

519340072022YFC3004700BK202013132019JZZY020505

2024

10.1007/s11771-023-5466-6

中南大学学报(英文版)
中南大学

中南大学学报(英文版)

CSTPCDEI
影响因子:0.47
ISSN:2095-2899
年,卷(期):2024.31(1)
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