Abstract
Two confined pillar tests were conducted at the Kiirunavaara mine to investigate the degree of compaction of three materials, i.e., 0–32-mm backfilled material, a blend of ore and waste material and caved material. Two blastholes were drilled parallel to each pillar wall, and several measurement holes were drilled in between the blastholes through each pillar. Both the measurement holes and backfilled materials, except the caved material, were instrumented. Two types of measurements were taken: dynamic measurements with accelerometers, and static measurements which considered the location of the instrumentation pre- and post-blast. Dynamic measurements involved the burden movement and the confining material behavior, and static measurements contained the final location of sensors inside and the angle of repose of the confining material. The results showed that the size distribution of the confining material affects its behavior under dynamic loading. The backfilled materials showed an apparent cohesion forming an agglomeration on the surface of the blasted burden. The burden moved as one slab due to simultaneous detonation. A gap was formed between the blasted burden and the new face. This gap was partially filled with burden erosion material which was finer fragmented than the blasted burden material.
Highlights
Sublevel caving (SLC) is a mass mining method used at the Kiirunavaara mine owned and operated by LKAB (Luossavaara-Kiirunavaara Aktiebolag) in northern Sweden (Fig. 1)
The results showed that the burden moved about 1.2–1.6 m, and the compaction was in the range of 4–5%
The results from the pillar tests showed the behavior of the blasted material in confined conditions as well as the behavior of the confining materials
Summary
Sublevel caving (SLC) is a mass mining method used at the Kiirunavaara mine owned and operated by LKAB (Luossavaara-Kiirunavaara Aktiebolag) in northern Sweden (Fig. 1). With increasing scale, it has become one of the most efficient underground bulk mining methods for inclined orebodies. The behavior of the blasted material under confined conditions has been studied by several researchers in different experimental configurations. Belen’kii et al (1969) conducted a series of smallscale tests to investigate the compaction of confining material. The dimensions of the models were 400 × 400 × 500 mm, and the confining material was crushed martite and hydrohematite-martite ore with predefined particle size distribution.
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