DETERMINATION OF PRECIOUS METALS IN ROCKS BY INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY USING NICKEL SULFIDE CONCENTRATION - COMPARISON WITH OTHER PRETREATMENT METHODS
R. Juvonen et al., DETERMINATION OF PRECIOUS METALS IN ROCKS BY INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY USING NICKEL SULFIDE CONCENTRATION - COMPARISON WITH OTHER PRETREATMENT METHODS, Analyst, 119(4), 1994, pp. 617-621
The nickel sulfide fire assay followed by inductively coupled plasma m
ass spectrometry was used to determine the platinum group elements and
gold in the certified reference material SARM 7 of felspathic pyroxen
ite and in the two new reference materials CHR-Pt+ and CHR-Bkg of chro
mitite. These results and results of reagent blank studies are reporte
d. The nickel sulfide fire assay was also compared with the other comm
only used pre-treatment methods, i.e., lead fire assay and aqua regia
leach. The comparison was made using the above reference materials and
12 samples from different ore types of the Keivitsa mafic layered int
rusion in northern Finland. Various rock types, quartz carbonate rock,
hornblendite and peridotite, were selected to study dependence of the
results on the type of sample. The highest recoveries, considering al
l elements, were obtained by nickel sulfide fire assay. However, lead
fire assay gave higher values for gold, palladium and platinum for our
samples than the nickel sulfide fire assay. The results obtained by a
qua regia leach support its use for preliminary ore analysis preceding
fire assay for gold, platinum and palladium and for some rock types f
or rhodium and ruthenium.