Subject: TA401-492 | Materials of engineering and construction. Mechanics of materials | Article Subject
A comparison test of different tailings used for underground backfill was conducted, using neutralized tailings from BIOX and flotation tailings of Jinfeng Mine. Laboratory comparison test results show that, with neutralized tailings, when the cement dosage is at 19%, b... View more
Gao, F., Zhou, K.-P., Dong, W.-J., Su, J.-H.. Similar material simulation of time series system for induced caving of roof in continuous mining under backfill.
Journal of Central South University of Technology. 2008; 15 (3): 356-360
Backfill Reliability Analysis and Ground Control Optimization of No.1 Ore Body in Jinchuan No.2 Mine. 2004
Rankine, R. M., Sivakugan, N.. Geotechnical properties of cemented paste backfill from Cannington Mine, Australia.
Geotechnical and Geological Engineering. 2007; 25 (4): 383-393
Zhao, C.-Q., Hu, N.-L.. Influence of cemented filling on stope stability.
Journal of Liaoning Technical University. 2008 (1): 13-16
Belem, T., Benzaazoua, M.. Design and application of underground mine paste backfill technology.
Geotechnical and Geological Engineering. 2008; 26 (2): 147-174
Wang, X.-M., Li, J.-X., Fan, P.-Z.. Applied technique of the cemented fill with fly ash and fine-sands.
Journal of Central South University of Technology. 2001; 8 (3): 189-192
Zhang, Q.-L., Hu, G.-Y., Wang, X.-M.. Hydraulic calculation of gravity transportation pipeline system for backfill slurry.
Journal of Central South University of Technology. 2008; 15 (5): 645-649
Tapsiev, A. P., Anushenkov, A. N., Uskov, V. A., Artemenko, Y. V., Pliev, B. Z.. Development of the long-distance pipeline transport for backfill mixes in terms of oktyabrsky mine.
Journal of Mining Science. 2009; 45 (3): 270-278
Wang, X.-M., Zhao, B., Zhang, Q.-L., Xu, D.-S.. Cemented backfilling technology with unclassified tailings based on vertical sand silo.
Journal of Central South University of Technology. 2008; 15 (6): 801-807
Wu, A.-X., Han, B., Liu, T.-Y.. Backfill technical-economic analysis of underhand drift cut-and-fill stoping based on reliability theory. : 41-44