金川二矿区下向大断面进路顶板充填体稳定性研究

现代矿业 ›› 2025, Vol. 41 ›› Issue (06): 60-66.

金川二矿区下向大断面进路顶板充填体稳定性研究

李彦龙¹ 陈仲杰¹ 段文权² 王鑫¹ 伍晨¹王帅帅¹ 常昊¹ 邢成杰¹ 张铭³

1. 金川集团镍钴股份有限公司；2. 北方矿业有限责任公司；3. 北京科技大学土木与资源工程学院

出版日期:2025-06-25 发布日期:2025-08-01

Research on Stability of Roof Filling Body in Large Section Approach Road in Jinchuan No. 2 Mining Area

1. Jinchuan Group Nickel and Cobalt Co.，Ltd.；2. Northern Mining Co.，Ltd.；3. School of Civil and Re⁃ sources Engineering，University of Science and Technology Beijing

Online:2025-06-25 Published:2025-08-01

摘要/Abstract

摘要： 在下向进路回采过程中，顶板充填体的承载支撑作用是维持采场进路稳定性的关键因素。为进一步提高金川二矿区深部采场回采进路参数，采用简支梁计算模型，对扩大断面后进路顶板稳定性进行理论分析，开展金川二矿区下向进路顶板充填体受力变形现场实测，探明开采过程中，不同结构参数的进路顶板充填体所受最大均布荷载值以及受力特征，揭示开采过程中顶板充填体的受力变形演化规律。结果表明：进路顶板充填体底层表面拉应力大小与其承载层厚度呈负相关，与进路宽度和上覆荷载大小呈正相关；将进路宽度由 5 m扩大为 6 m时，顶板充填体中吊筋所受最大拉力为 17.38 kN，底网主筋所受最大拉力为 10.02 kN，小于现用充填为直径 12 mm 的钢筋极限拉断力 34 kN，负荷率在 51.1%，处于良性负荷状态；进路顶板充填体在水平面内垂直于进路轴向方向上所受最大拉应力由 0.220 8 MPa 扩大至 0.269 9 MPa，小于充填体极限抗拉强度 0.53 MPa，说明下向大断面进路顶板胶结充填体不会发生失稳破坏。研究可为回采进路顶板充填体稳定性及进路断面参数设计提供理论指导。

关键词: 大断面进路, 顶板稳定性, 下向胶结充填采矿法, 简支梁模型, 深部采场

Abstract: The bearing and supporting effect of the roof filling body is the key factor to maintain the stability of the stope in the process of underground stope. In order to further improve the parameters of min⁃ ing path in deep mining area of Jinchuan No. 2 mining area，the simple supported beam calculation model is adopted to carry out theoretical analysis on the stability of the roof of the road after expanding the section， and carry out field measurement of the stress deformation of the roof filling body of the downward approach in Jinchuan No. 2 mining area，and verify the maximum distributed load value and stress characteristics of the roof filling body of the road with different structural parameters during mining. The evolution law of stress and deformation of roof filling body during mining is revealed. The results show that the tensile stress of the bottom surface of the roof filling body is negatively correlated with the thickness of the bearing layer，and positively correlated with the width of the approach and the overlying load. When the width of the road is ex⁃ panded from 5 m to 6 m，the maximum tensile force of the hanging bar in the roof filling body is 17.38 kN， and the maximum tensile force of the main bar in the bottom network is 10.02 kN，which is less than the lim⁃it tensile force of the steel bar with a diameter of 12 mm，and the load rate is 51.1%，which is in a benign load state. The maximum tensile stress of the roof backfill in the horizontal plane perpendicular to the axial direction of the road increases from 0.220 8 MPa to 0.269 9 MPa，which is less than the ultimate tensile strength of the backfill body 0.53 MPa，indicating that the cemented backfill in the large section under the road roof will not be unstable and fail. The study can provide theoretical guidance for the stability of the stop⁃ ing road roof filling body and the design of the road section parameters.

Key words: large-section downward drift, roof stability, downward cemented backfilling method, simple-supported beam model, deep stope

李彦龙, 陈仲杰, 段文权, 王鑫, 伍晨, 王帅帅, 常昊, 邢成杰, 张铭. 金川二矿区下向大断面进路顶板充填体稳定性研究[J]. 现代矿业, 2025, 41(06): 60-66.

LI Yanlong CHEN Zhongjie DUAN Wenquan WANG Xin WU Chen WANG Shuaishuai CHANG Hao XING Chengjie ZHANG Ming. Research on Stability of Roof Filling Body in Large Section Approach Road in Jinchuan No. 2 Mining Area[J]. Modern Mining, 2025, 41(06): 60-66.

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