References

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Backfill

Bain, A.G. and Bonnington, S.T. (1970). The hydraulic transport of solids by pipeline. Pergamon Press.

Barker, M.L. and Truscott, B. (1974). The development and operation of a test facility for pipeline abrasive wear measurement. Colorado, U.S.A., Paper J3.

Carter, A.M.F. and Howarth, H. D. (date). A literature review of the factors that influence the wear of backfill handling systems.Report No. M319. Council for Mineral Technology.

Cooke, R. (1991). Performance of backfill distribution systems at high solids concentrations.Hydraulic Conveying Solutions, Report No. TDS91012, August. Gold and Uranium Division, Anglo American Corporation.

Cooke, R. (1991). The dense phase hydraulic transport of high concentration cyclone classified tailings in pipelines. Ph.D thesis. University of Cape Town.

Cooke, R. (1992). The influence of binder addition on the hydraulic transport properties of backfill slurries. Hydraulic Conveying Solutions, Report No. TDS92014, August. Gold and Uranium Division, Anglo American Corporation.

De Bree S.E.M., Rosenbrand, W.F. and De Gee A.W.J. (1982). On the erosion resistance in water-sand mixtures of steels for application in backfill pipelines. Hydrotransport 8. Stephens H.S. (ed), BHRA fluid Engineering, Cranfield.

De Figueirdo, F. (1987). Design of deslimed tailings backfill system. Internal report, Technical note No. T 27/87, Task No. GD3VO1. Chamber of Mines Research Organisation.

Epithite, H.J. (1985). Rubber lining - The soft option against abrasion. Bulk Solids Handling, 5:5 Oct. pp.1041-1047.

Gilchrist, I.C.R. (1988). Predicting the values of flow parameters for the design of pipelines conveying backfill slurries.Backfill in South African Mines. South African Institute of Mining and Metallurgy. pp.235-261.

Guest, P.J., Lander, W.K. and Rabenstine, R.B. (1986). Conceptual design of a deslimed tailings backfill distribution system. Research Report No. 28/87, Project Number No. GD3R09. Chamber of Mines Research Organisation.

Hinde, A.L. (1989). Implications of backfill compositional changes. The Alleviation of Classified Tailings Backfill System Problems, Backfill Seminar, Chamber of Mines Research Organisation, September.

Paterson, A.J.C. and Lazarus, J.H. (1989). Backfill pipeline tests for Cooke III shaft – Randfontein. Hydrotransport Research, Report No. JCI 89 161. Johannesburg Consolidated Investments.

Petersen, J. (1988). Wear in backfill backfill pipelines - A review of the present knowledge and a proposed strategy for future research. Technical Note No. T39/88, Task No. GD3R12. Gold Exploration Laboratory, Chamber of Mines Research Organisation.

Sauermann, H.B. (1982). The influence of particle diameter on pressure gradients of gold slimes pumping. Proceedings Hydrotransport 8. BHRA Fluid Engineering, Cranfield, U.K.

Schmidt, E. and Spearling, A.J.S. (1990). Internal Backfill Guideline Report. Technical and Development Services, Gold and Uranium Division, Anglo American Corporation.

Shook, C.A., Haas, D.B., Husband, W.H.W. and Small, M. (1981). Relative wear rate determinations for backfill pipelines. Journal of Pipelines, No. 4. pp. 273-280.

Spearing, A.J.S. and Steward, N.R. (1992). Backfill, not paste, will be the fill of the future. Canadian Mining Journal, June. pp. 31-40.

Steward, N.R. (1990). The determination of wear related parameters for nine classified tailings. Gold and Uranium Division Report: April. Anglo American Corporation of South Africa.

Steward, N.R. (1991). The determination of the relationship between pipe wear and pipe diameter. Gold and Uranium Division Report: February. Anglo American Corporation of South Africa.

Steward, N.R. (1991b). The determination of wear relationships for two classified tailings at high relative densities. Gold and Uranium Division Report: July. Anglo American Corporation of South Africa.

Steward, N.R. (1991c). The determination of pipeline wear relationships for Fosroc Filset Binder modified classified tailings at high relative densities. Gold and Uranium Division Report: December. Anglo American Corporation of South Africa.

Steward, N.R. (1992). The determination of pipeline particle degradation and the wear related parameters for Elandsrand cyclone classified tailings and President Steyn full plant tailings. Gold and Uranium Division Report: April. Anglo American Corporation.

Steward, N.R. and Heckroodt (1989). Polyurethane as a wear resistant material in backfill handling applications. Hydrotransport 11: October. Stratford-upon-Avon, UK. pp.523-530.

Thomas, E.G., Nantel, L.H., Notley, K.R. (1979). Fill Technology in Underground Metalliferous Mines. International Academic Services Limited. Ontario, Canada.

Truscott, G.F. (1975). A literature survey on wear in pipelines. BHRA Fluid Engineering publication, TN 1295.

Van der Walt, P.G. (1988). Reticulation systems for deslimed tailings. Backfill in South African Mines. South African Institute of Mining and Metallurgy. pp. 393-403.

Wang Q. (1986). Wear resistance of steels under wet-abrasive erosion conditions. Wear:112. pp. 207-216.

Warman Technical pamphlet, Mitchel Cotts Engineering (Pty) Ltd.

Wingrove, A.C. (1989). JCI experiences with vertical "free fall" and "full flow" backfill systems. Backfill Transport in the Mining Industry, Current Technology, September. Hydraulic Conveying Association of South Africa. S.A.

Shrinkage stoping

Marchand, R., Godin, P., Doucet, C. 2001. Shrinkage stoping at the Mouska Mine. in Underground Mining Methods: Engineering Fundamentals and International Case Studies. Eds: Hustrulid, W.A., Bullock, R.L., Society for Mining, Metallurgy, and Exploration, pp. 189-194.

Norquist, B. 2001. Shrinkage stoping practices at the Schwartzwalder Mine. Underground Mining Methods: Engineering Fundamentals and International Case Studies. Eds: Hustrulid, W.A., Bullock, R.L., Society for Mining, Metallurgy, and Exploration, pp. 195-204.

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