Experimental and technological research on grouting and curing of surface moraine collapse pits in block caving mining

IF 4.4 2区工程技术 Q1 ENGINEERING, MECHANICAL

Engineering Failure Analysis Pub Date : 2025-04-05 DOI:10.1016/j.engfailanal.2025.109574

Minggui Jiang , Wei Sun , Shaoyong Wang , Xinglong Feng , Zhengrong Li , Haiyong Chen , Chong Chen

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Abstract

Collapse pits are highly susceptible to secondary hazards such as underground debris flows and slope instability under mining disturbances. These hazards significantly damage the ecological environment of the mining area. To reduce the geological hazards of collapse pits, grouting is used for management. The diffusion pattern and curing mode of slurry under different grouting pressures were investigated through indoor grouting simulation tests, and industrial tests were carried out to assess grouting effects. The results indicate that the slurry is dominated by penetration diffusion and supplemented by splitting diffusion in the moraine. The penetration distance and diffusion radius of the slurry increase linearly with grouting pressure, while the splitting uplift distance and cured volume increase exponentially with grouting pressure. Splitting diffusion consists of three stages: bulging compaction, splitting flow, and passive uplift. Horizontal splitting has a vertical uplift effect on the formation. The slurry primarily consolidates individual moraine particles into a cohesive mass by filling fractures, binding soil particles, and reinforcing interfaces with the rock mass. For different moraine layer structures, full-hole, segmented, and point-based grouting methods were applied. A composite grouting technique, “layered grouting with ring solidification,” was also introduced, achieving excellent grouting results. This study provides technical support for managing geological hazards in collapse pits caused by block caving mining disturbances and for green mining practices.

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块状崩落法开采地表冰碛塌陷坑注浆与养护试验与技术研究

塌陷坑在采矿扰动下极易发生地下泥石流和边坡失稳等次生灾害。这些危害严重破坏了矿区的生态环境。为减少塌陷坑的地质危害，采用注浆进行治理。通过室内注浆模拟试验，研究了不同注浆压力下浆体的扩散规律和固化模式，并进行了工业试验，对注浆效果进行了评价。结果表明：冰碛中浆液以渗透扩散为主，以劈裂扩散为辅；浆液的侵彻距离和扩散半径随注浆压力呈线性增加，劈裂隆起距离和固化体积随注浆压力呈指数增加。劈裂扩散包括三个阶段：胀形压实、劈裂流动和被动隆升。水平分裂对地层有垂直隆升作用。浆液主要通过填充裂缝、结合土壤颗粒和加强与岩体的界面来将单个冰碛颗粒固结成一个粘性体。针对不同的冰碛层结构，采用全孔注浆、分段注浆和点状注浆。介绍了一种复合注浆技术——“环形凝固分层注浆”，取得了良好的注浆效果。该研究为块状崩落开采扰动塌陷坑地质灾害治理和绿色开采实践提供了技术支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Engineering Failure Analysis 工程技术-材料科学：表征与测试

CiteScore

7.70

自引率

20.00%

发文量

956

审稿时长

47 days

期刊介绍： Engineering Failure Analysis publishes research papers describing the analysis of engineering failures and related studies. Papers relating to the structure, properties and behaviour of engineering materials are encouraged, particularly those which also involve the detailed application of materials parameters to problems in engineering structures, components and design. In addition to the area of materials engineering, the interacting fields of mechanical, manufacturing, aeronautical, civil, chemical, corrosion and design engineering are considered relevant. Activity should be directed at analysing engineering failures and carrying out research to help reduce the incidences of failures and to extend the operating horizons of engineering materials. Emphasis is placed on the mechanical properties of materials and their behaviour when influenced by structure, process and environment. Metallic, polymeric, ceramic and natural materials are all included and the application of these materials to real engineering situations should be emphasised. The use of a case-study based approach is also encouraged. Engineering Failure Analysis provides essential reference material and critical feedback into the design process thereby contributing to the prevention of engineering failures in the future. All submissions will be subject to peer review from leading experts in the field.