Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading

Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading

In solid backfilling coal mining (SBCM), the crushed gangue backfilling material (CGBM) is generally compacted circularly by a compaction machine in order to reduce its compressibility. In this cyclic compaction process, the particles are crushed, which has a significant effect on the deformation re...

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Main Authors: Junmeng Li, Yanli Huang, Zhongwei Chen, Meng Li, Ming Qiao, Mehmet Kizil
Format: Article
Language:English
Published: MDPI AG 2018-06-01
Series:Minerals
Subjects:
crushing gangue backfilling material
cyclic loading
particle crushing
acoustic emission
solid backfilling coal mining
Online Access:http://www.mdpi.com/2075-163X/8/6/244
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spelling doaj-d4fc29a696a14ce684ded60d56c23b992020-11-25T01:13:47ZengMDPI AGMinerals2075-163X2018-06-018624410.3390/min8060244min8060244Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic LoadingJunmeng Li0Yanli Huang1Zhongwei Chen2Meng Li3Ming Qiao4Mehmet Kizil5State Key Laboratory of Coal Resources and Safe Mining, School of Mines, China University of Mining & Technology, Xuzhou 221116, ChinaState Key Laboratory of Coal Resources and Safe Mining, School of Mines, China University of Mining & Technology, Xuzhou 221116, ChinaSchool of Mechanical and Mining Engineering, The University of Queensland, Queensland 4072, AustraliaState Key Laboratory of Coal Resources and Safe Mining, School of Mines, China University of Mining & Technology, Xuzhou 221116, ChinaState Key Laboratory of Coal Resources and Safe Mining, School of Mines, China University of Mining & Technology, Xuzhou 221116, ChinaSchool of Mechanical and Mining Engineering, The University of Queensland, Queensland 4072, AustraliaIn solid backfilling coal mining (SBCM), the crushed gangue backfilling material (CGBM) is generally compacted circularly by a compaction machine in order to reduce its compressibility. In this cyclic compaction process, the particles are crushed, which has a significant effect on the deformation resistance of CGBM. However, the deformation resistance of CGBM is critical for controlling overburden strata movement and ground surface subsidence. This study implemented an experimental approach to investigate the particle-crushing characteristics and acoustic-emission (AE) characteristics of CGBM during constant-amplitude cyclic loading (CACL). At the same time, the relationship between particle crushing and AE signals was established. The results showed that the gangue particles were generally in the shape of irregular convex polyhedrons with more edges and angles that were prone to breakage. It also demonstrated that both the crushing ratio (Bg) and the newly produced fine granule content increased with the cyclic loading times. The content of newly generated fine particles can reflect the particle-crushing conditions to a certain extent. What is more, it was found that the CGBM samples exhibited an apparent Felicity effect during CACL, and AE signals were the most active during the first loading cycle. The crushing ratio of CGBM was highly correlated to the AE signals, which indicated that AE signals can be used to reflect the particle-crushing situation of CGBM. This study is of great significance for obtaining an in-depth understanding of the mechanical properties of CGBM, as well as providing guidance for the engineering practice of SBCM.http://www.mdpi.com/2075-163X/8/6/244crushing gangue backfilling materialcyclic loadingparticle crushingacoustic emissionsolid backfilling coal mining
collection DOAJ
language English
format Article
sources DOAJ
author Junmeng Li
Yanli Huang
Zhongwei Chen
Meng Li
Ming Qiao
Mehmet Kizil
spellingShingle Junmeng Li
Yanli Huang
Zhongwei Chen
Meng Li
Ming Qiao
Mehmet Kizil
Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
Minerals
crushing gangue backfilling material
cyclic loading
particle crushing
acoustic emission
solid backfilling coal mining
author_facet Junmeng Li
Yanli Huang
Zhongwei Chen
Meng Li
Ming Qiao
Mehmet Kizil
author_sort Junmeng Li
title Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
title_short Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
title_full Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
title_fullStr Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
title_full_unstemmed Particle-Crushing Characteristics and Acoustic-Emission Patterns of Crushing Gangue Backfilling Material under Cyclic Loading
title_sort particle-crushing characteristics and acoustic-emission patterns of crushing gangue backfilling material under cyclic loading
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2018-06-01
description In solid backfilling coal mining (SBCM), the crushed gangue backfilling material (CGBM) is generally compacted circularly by a compaction machine in order to reduce its compressibility. In this cyclic compaction process, the particles are crushed, which has a significant effect on the deformation resistance of CGBM. However, the deformation resistance of CGBM is critical for controlling overburden strata movement and ground surface subsidence. This study implemented an experimental approach to investigate the particle-crushing characteristics and acoustic-emission (AE) characteristics of CGBM during constant-amplitude cyclic loading (CACL). At the same time, the relationship between particle crushing and AE signals was established. The results showed that the gangue particles were generally in the shape of irregular convex polyhedrons with more edges and angles that were prone to breakage. It also demonstrated that both the crushing ratio (Bg) and the newly produced fine granule content increased with the cyclic loading times. The content of newly generated fine particles can reflect the particle-crushing conditions to a certain extent. What is more, it was found that the CGBM samples exhibited an apparent Felicity effect during CACL, and AE signals were the most active during the first loading cycle. The crushing ratio of CGBM was highly correlated to the AE signals, which indicated that AE signals can be used to reflect the particle-crushing situation of CGBM. This study is of great significance for obtaining an in-depth understanding of the mechanical properties of CGBM, as well as providing guidance for the engineering practice of SBCM.
topic crushing gangue backfilling material
cyclic loading
particle crushing
acoustic emission
solid backfilling coal mining
url http://www.mdpi.com/2075-163X/8/6/244
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AT yanlihuang particlecrushingcharacteristicsandacousticemissionpatternsofcrushingganguebackfillingmaterialundercyclicloading
AT zhongweichen particlecrushingcharacteristicsandacousticemissionpatternsofcrushingganguebackfillingmaterialundercyclicloading
AT mengli particlecrushingcharacteristicsandacousticemissionpatternsofcrushingganguebackfillingmaterialundercyclicloading
AT mingqiao particlecrushingcharacteristicsandacousticemissionpatternsofcrushingganguebackfillingmaterialundercyclicloading
AT mehmetkizil particlecrushingcharacteristicsandacousticemissionpatternsofcrushingganguebackfillingmaterialundercyclicloading
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