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A state-of-the-art review on delayed expansion of cemented paste backfill materials

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Utilizing delayed expansion cemented paste backfill materials(DECPB)in mine backfill operations offers an effective solution to the challenge of achieving proper contact between the in-situ cemented backfill mass and the roof in mined-out areas(backfill-roof contact).This article presents recent progress in both theoretical and experimental research concerning DECPB.The types and mechanisms of expansive additives,including expansive agents,foaming agents,and expansive mineral materials relevant to DECPB,are explained,along with their impact on the expansive properties and mechanical characteristics of DECPB.The composition,material characteristics,preparation methods,and controlled release mechanisms of microcapsules are analyzed.Two methods for measuring the volume change rate of paste backfill slurries are dis-cussed.Research indicates that an appropriate content of expansive additives not only enhances the expansive properties of cemented paste backfill materials but also contributes to improving their mechanical properties.Chemical foaming agents and bentonite are found to be more suitable for preparing DECPB compared to expansive agents.The delayed expansion of cemented paste backfill material is influenced by microcapsules,with their wall materials,preparation parameters,and the alkaline slurry environment affecting their controlled release mechanism.Developing and optimizing precise measurement devices and methods forfor the volume change rate of cemented paste backfill materials is essential requirement for study-ing the performance of DECPB.Combining delayed expansion technology with retarding techniques in cemented paste backfill materials can provide a reliable solution for achieving proper backfill-roof contact in the future.

Paste backfillDelayed expansionMining with backfillExpansive additivesTailings

Meng-Yuan Li、Li-Jie Guo、Yue Zhao、Lei Zhang、Kai Yang、Xiao-Peng Peng、Andrew Pan

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BGRIMM Technology Group,Beijing 100160,China

National Centre for International Research On Green Metal Mining,Beijing 102628,China

Department of Civil and Mineral Engineering,University of Toronto,Toronto,ON M5S 1A4,Canada

National Natural Science Foundation of ChinaResearch Fund of BGRIMM Technology GroupYouth Innovation Fund of BGRIMM Technology GroupYouth Innovation Fund of BGRIMM Technology GroupYouth Innovation Fund of BGRIMM Technology Group

5227412202-213604-230604-234204-2208

2024

10.1007/s12598-024-02828-0

稀有金属(英文版)
中国有色金属学会

稀有金属(英文版)

CSTPCDEI
影响因子:0.801
ISSN:1001-0521
年,卷(期):2024.43(8)