Accelerated Kimberlite Weathering-The Future of Diamond Mining?

摘要

Kimberlite weathering has been a topic of ongoing research within De Beers for many years.Using kimberlite weathering as an alternative to crushing has many advantages e.g.power and reducing diamond breakage.Weathering could also possibly be used in conjunction with crushing just to weaken the material and reduce power consumption.These forces have driven current research to investigate whether kimberlite weathering could be utilised for these reasons.Weathering in this context does not refer to weathering over long period of time but rather to disintegration of the material in aqeous media in relative short time periods.Previous published work discussed that the presence of smectite renders kimberlite weatherable and that the amount of smectite determines the rate of weathering (Morkel and Vermaak,2006).The current work investigates whether cation exchange or the adsorption of organic species in the smectite interlayer could influence the observed weathering behaviour.The results show that cation exchange does take place in the presence of cation species and that the weathering behaviour can be drastically improved with especially Cu2+ cations.Concentration and time effects of the weathering was also investigated. Weathering tests with organic species such as ethanol,methanol,edta,pentanol,butanol,acetic acid and oxalic acid was performed.The results show that organic species does improve weathering but under these testing conditions was not as effective as cations.