Experimental Study on Compression Characteristics of Gangue Grouting Filling Materials

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ORIGINAL PAPER

Experimental Study on Compression Characteristics of Gangue Grouting Filling Materials Jiang Wu . Bing Chen . Shunjie Chai . Wenlei Kong

Received: 16 March 2020 / Accepted: 10 April 2020 Ó Springer Nature Switzerland AG 2020

Abstract In order to study the compression deformation characteristics of filling materials with gangue grouting, the compression test device for filling material with gangue grouting was made, and contrastive compression tests were carried out for different sizes filling materials with non-grouting of gangue and gangue grouting. Compared with the filling material with gangue non-grouting, the results showed that the axial strain-axial stress curves of filling material of gangue grouting was smoother, the slope decreased, the elastic modulus increased, compressibility reduced and the compression deformation decreased. During the compression process, the axial strain increasing rate of filling material of gangue with non-grouting and grouting gradually decreased with the increasing stress, and they can be divided into three stages, respectively, and the three stages was named speed compaction stage, stabilization compaction stage and steady compaction stage, respectively. In the steady compaction stage, when the axial stress

J. Wu B. Chen (&) S. Chai State Key Laboratory of Mining Disaster Prevention and Control Co-Founded By Shandong Provence and the Ministry of Science and Technology, Shandong University of Science and Technology, Qingdao 266590, China e-mail: [email protected] W. Kong College of Automotive Engineering, Shandong Institute of Communications, Jinan 250357, China

applied to the filling material with gangue grouting is 11.5 MPa, as the diameter of gangue particles increased from 0 * 20 to 0 * 40 mm, the axial strain amplitude greatly, but when gangue particles increased from 0 * 40 to 0 * 50 mm, the amplification of axial strain decreased. When the gangue particles increased from 0 * 50 to 0 * 60 mm, the axial strain increased only by 0.009. Small particles gangue was mostly located at the bottom of filling materials, when the proportion was large, the filling effect and gangue cementation effect of the slurry in the gangue gap were affected. Considering comprehensively, the optimal particles of filling materials with gangue grouting selected in this paper was 0 * 40 mm. The results of this study are of guiding significance for the reasonable selection of filling materials with gangue particles to control surface deformation. Keywords Grouting gangue filling Particle size gradation Axial strain-axial stress curve Compression characteristics

1 Introduction The ground subsidence caused by coal mining not only damaged the ecological environment, but also caused damage to cultivated farmland and surface buildings (structures), which has a serious impact on the

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Geotech Geol Eng

production and life of people around the mining area (Xie and Wang 2012). For the problem of ground subsidence caused by coal

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Experimental Study on Compression Characteristics of Gangue Grouting Filling Materials

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