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基于岩石整体破坏准则深埋隧洞岩爆判据OA

Rockburst criterion for deep-buried tunnels based on rock integrity failure criterion

中文摘要英文摘要

岩爆是深部矿产资源开发与地下工程建设中亟待解决的关键科学难题之一.基于弹性应变能与岩石整体破坏准则,结合深埋隧洞开挖完成后围岩二次应力分布,建立岩爆倾向性多因素综合判据模型.研究表明,该判据考虑了岩体切向应力与径向应力、岩体完整性、泊松比及围岩开挖二次应力分布效应,还考虑了岩爆孕育 3 种要素:应力状态、结构完整性和材料脆性特性.根据岩爆活动强度差异,将其划分为无、弱、中等及强烈 4 个等级,并确定 3 个分级阈值为2.5、8.1、25.7,并讨论了各参数的敏感性特征.结果表明,岩体切向应力与抗压强度之比对岩爆烈度分级影响最大,在其大于0.75时,更容易发生强岩爆;当其接近0.40时,更容易发生中等岩爆.通过国内典型深埋隧洞工程案例的实证分析显示,判据的预测结果与实际岩爆情况基本吻合,且与经典岩爆判据具有较好的一致性,具有良好的准确性和适用性.提出的能量-应力协同作用岩爆判据,希望为深埋隧洞应变型岩爆预测提供一种新思路.

Rockburst is one of the critical scientific challenges demanding urgent resolution in deep mineral resource exploitation and underground engineering construction.Based on elastic strain energy and the rock integrity failure criterion,combined with the secondary stress distribution of surrounding rock after deep-buried tunnel excavation,this study establishes a multi-factor integrated criterion model for evaluating rockburst propensity.Results demonstrate that the proposed criterion systematically synthesizes key parameters including rock mass tangential and radial stresses,rock integrity,Poisson's ratio characteristics,and secondary stress redistribution effects,while specifically integrating three essential factors governing rockburst initiation:stress concentration state,structural integrity condition,and material brittleness property.Based on the intensity variation of rockburst activity,the classification system is established with four distinct grades:none,weak,moderate,and intense,with three classification thresholds determined at 2.5,8.1,and 25.7,respectively.The sensitivity characteristics of each parameter were also discussed.The results show that the ratio of tangential stress to compressive strength of the rock mass has the greatest influence on the classification of rockburst intensity.When this ratio exceeds 0.75,intense rockburst is more likely to occur;when it approaches 0.40,moderate rockburst is more likely to occur.Empirical investigations incorporating case studies of representative deep tunnel projects across China demonstrate that the criterion's predictive outcomes exhibit strong alignment with actual rockburst manifestations while maintaining robust consistency with classical rockburst criteria,thereby demonstrating enhanced predictive accuracy and broad applicability.The developed energy-stress synergistic rockburst criterion offers an innovative methodology for strain-type rockburst prediction in deep tunneling engineering.

魏士炎;郭建强;粟磊;李育

贵州大学 土木工程学院,贵州 贵阳 550025贵州大学 土木工程学院,贵州 贵阳 550025贵州大学 土木工程学院,贵州 贵阳 550025贵州大学 土木工程学院,贵州 贵阳 550025

建筑与水利

岩石力学岩爆判据弹性应变能深埋隧洞

rock mechanicsrockburst criterionelastic strain energydeep-buried tunnel

《岩土力学》 2026 (3)

1056-1066,11

国家自然科学基金资助项目(No.41372356)贵州省自然科学基金(黔科合基础-ZK[2023]一般068). This work was supported by the National Natural Science Foundation of China(41372356)and Guizhou Province Science Foundation(ZK[2023]068).

10.16285/j.rsm.2025.0263

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