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现代矿业 ›› 2026, Vol. 42 ›› Issue (05): 136-141,148.

• 岩土工程 • 上一篇    下一篇

基于PFC-DFN耦合模拟的深部破碎节理岩体尺寸效应及REV研究#br#

李 武1 崔 鹏1 刘家明2 郭奇峰3,4 孙江江1 周 福1 余一松2 米朝辉1 付海涛3   

  1. 1. 云南驰宏锌锗股份有限公司;2. 长沙有色冶金设计研究院有限公司; 3. 北京科技大学土木与资源工程学院;4. 金属矿山高效开采与安全教育部重点实验室
  • 出版日期:2026-05-25 发布日期:2026-06-17

Study on Size Effect and REV of Deep Fractured Jointed Rock Mass Based on PFC-DFN Coupling Simulation

LI Wu¹ CUI Peng¹ LIU Jiaming2 GUO Qifeng3,4 SUN Jiangjiang¹ ZHOU Fu¹ YU Yisong2 MI Zhaohui1 FU Haitao3   

  1. 1. Yunnan Chihong Zinc and Germanium Co.,Ltd.;2. CINF Engineering Co.,Ltd.;3. School of Resources and Safety Engineering,University of Science and Technology Beijing;4. Key Laboratory of Ministry of Education for Efficient Mining and Safety of Metal Mines
  • Online:2026-05-25 Published:2026-06-17

摘要: 破碎围岩力学参数尺寸效应是深部开采工程中的重点考察因素,天然岩体中广泛分 布的节理构造会使岩体随尺度增大呈现显著不同的力学特性,直接影响地下施工安全,给深部开 采安全带来严峻挑战。为明确节理岩体尺寸效应规律及表征单元体尺寸,解决深部破碎围岩力学 参数评估难题,结合云南某千米级深部铅锌矿工程实际,采用 SIROVISION 三维遥测系统结合人工 罗盘测量,系统统计现场节理分布特征,共描绘 47 条节理,并划分 3 组优势节理。利用 PFC 颗粒流 软件,结合室内单轴压缩试验标定的细观参数(模拟与试验误差≤5%),建立三维节理网络模型,构 建 8 种不同尺寸的合成岩体,通过单轴压缩试验分析其尺寸效应。结果表明,弹性模量先基本稳 定,经骤降后趋于稳定,单轴抗压强度随尺寸增大逐渐降低后保持稳定;综合分析确定该节理岩体 表征单元体尺寸为 ϕ0.8 m×1.6 m,研究成果可为深部围岩工程设计与安全控制提供可靠理论支撑。

关键词: 深部破碎围岩, 尺寸效应, 节理岩体, PFC, 表征单元体, 岩体力学参数

Abstract: The size effect of mechanical parameters of fractured surrounding rock mass is a key factor in deep mining engineering. The widely distributed joint structure in natural rock mass will make the rock mass show significantly different mechanical properties with the increase of scale,which directly affects the safety of underground construction and brings severe challenges to the safety of deep mining. In order to clarify the size effect law of jointed rock mass and the size of characterization unit,and to solve the prob⁃ lem of evaluating the mechanical parameters of deep broken surrounding rock,combined with the engineer⁃ ing practice of a kilometer-level deep lead-zinc mine in Yunnan,the SIROVISION three-dimensional te⁃ lemetry system combined with artificial compass measurement is used to systematically count the distribu⁃ tion characteristics of joints in the field. A total of 47 joints are depicted and three groups of dominant joints are divided. Using PFC particle flow software,combined with the microscopic parameters calibrated by indoor uniaxial compression test ( simulation and test error ≤ 5% ),a three-dimensional joint network model is established,and eight different sizes of synthetic rock masses are constructed. The size effect is analyzed by uniaxial compression test. The results show that the elastic modulus is basically stable at first,and then tends to be stable after a sudden drop. The uniaxial compressive strength gradually decreases with
the increase of size and then remains stable. Through comprehensive analysis,the size of the characteriza⁃
tion unit of the jointed rock mass is determined to be ϕ0.8 m×1.6 m. The research results can provide reli⁃
able theoretical support for the design and safety control of deep surrounding rock engineering.

Key words: deep broken surrounding rock, size effect, jointed rock mass, PFC, REV, rock mass me? chanical parameters