Abstract
Slurry transportation via pumping is an increasingly viable alternative for the conventional fine particle pumping, but there are also many applications involving larger particles. However, most of the published studies on slurry erosion have been conducted with fine particle sizes. In this work, also large particle slurry erosion of commercial wear resistant materials is studied. A high speed slurry-pot wear tester was used with edge protected samples to simulate the wear conditions in industrial slurry applications where edge wear is minimal. Two wear resistant steels together with natural rubber and polyurethane lining materials were tested, and the results were compared with the results of the same materials tested without sample edge protection. The tests were performed using 15m/s speed, two sample angles, and slurry concentrations with particle size ranging from large 8/10mm granite to fine 0.1/0.6mm quartz. In all conditions, the steel samples showed stable wear behavior, whereas the elastomers gave notably inconsistent results in different test conditions. In general, steels exhibited better wear performance with large particles and elastomers with fine particles, and the wear losses were 40–95% lower when edge wear was inhibited. With increasing abrasive size, the edge wear becomes more dominant and the particle embedment decreases.
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•Abrasive slurry erosion behavior of commercial steels is compared with polymers.•High speed slurry-pot tester was used to simulate various industrial applications.•Both low- and high-stress erosion conditions are included.•Edge effect in slurry erosion is studied and characterized for the first time.•Role of particle embedment is higher for elastomers than for steels.