1. ARCHIBALD J., DE SOUZA E. and BEAUCHAMP L. (2009) Compilation of industry practices for control of hazards associated with backfill in underground mines -Part II underground transport and stope placement. In: Proceedings of the 3rd CANUS Rock Mechanics Symposium, ROCKENG09, Toronto, 9-15 May 2009. Paper 4185, pp. 1-10;

2. BELEM T. and BENZAAZOUA M. (2004) An overview on the use of paste backfill technology as a ground support method in cut-and-fill mines. In: Proceedings of the 5th Int. Symp. on Ground support in Mining and Underground Construction, Perth, Western Australia, Australia, 28-30 September 2004. London: Tayler & Francis Group, pp. 637 - 650. [Online] Available from: pdfs.semanticscholar.org/f6c7/558;

3. BENZAAZOUA M., BELEM T. and BUSSIE`RE B. (2002), Chemical factors that influence the performance of mine sulphidic paste backfill. Cement and Concrete Research, Vol. 32, pp. 1133 -1144. [Online] Available from: http://tikoubelem.uqat.ca/sitepro/articles/article%20no3.pdf [Accessed 25/09/2019];

4. DE SOUZA E., ARCHIBALD J. and BEAUCHAMP L. (2009) Compilation of industry practices for control of hazards associated with backfill in underground mines -Part I surface and plant operations. In: Proceedings of the 3rd CANUS Rock Mechanics Symposium, ROCKENG09, Toronto, 9-15 May 2009. Paper 4184, pp. 1-9. [Online] Available from: http://www.geogroup.utoronto.ca/wp-content/uploads/rockeng09/ Session20/4184%20PAPER.pdf [Accessed 25/09/2019];

5. ILGNER H. (2006), Mine Backfill, in Paste and thickened tailings -a guide. Second Edition. Chapter 10, pp. 169-186. Australia: Australian Centre for Geomechanics, The University of Western Australia;