The properties of cemented silicated backfill for use in narrow hard-rock, tabular mines

Several aspects of The behaviour and properties of backfills consisting of cemented cyclone-underflow tailings are illustrated by means of examples, and guidelines are given on the optimization of the performance of cemented fills. The stretch characteristics of the geofabric used to contain freshly placed backfill are described, as well as the relationship between these characteristics and the forces acting on retaining barricades. The properties required to achieve a self-supporting, stable free face in cemented backfill are explored, and a graphic relationship between stable height and shear strength is presented and compared with that for uncemented (classified) tailings. After a description of the characteristics of Witwatersrand quartzite gold-tailings backfill and commonly used cements, the process of drainage and air entry into backfill is outlined, Following this, the early-age gain in strength and the shear-strength characteristics, as well as the compressibility characteristics of cemented backfill, are described. Two phenomena that are potentially damaging to cemented backfill are seismic effects (or blasting acceleration) and the closure that takes place during the curing of cement, Investigations show that neither of these phenomena is actually significantly deleterious to gold-tailings backfill: liquefaction does not occur as a result of seismicity, and hydration of cemented fill not significantly impeded by closure.