1. Influence of iron on kaolin whiteness: An electron paramagnetic resonance study
- Author
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R. B. Scorzelli, Alexandre Malta Rossi, Luiz Carlos Bertolino, and Maurício Lenardo Torem
- Subjects
Chemistry ,Iron oxide ,Analytical chemistry ,Mineralogy ,Geology ,Silicate ,law.invention ,Paramagnetism ,chemistry.chemical_compound ,Geochemistry and Petrology ,law ,Kaolinite ,Orthorhombic crystal system ,Clay minerals ,Electron paramagnetic resonance ,Superparamagnetism - Abstract
Well characterized kaolin samples from different deposits of Brazil were studied by electron paramagnetic resonance. Three paramagnetic species attributed to iron in different chemical environments were identified in raw samples. A very intense and broad line with 0.2 mT linewidth was typical of large particles of iron oxides/hydroxides. A species at g = 2.0 with 0.04 mT line width was associated with superparamagnetic particles adsorbed to kaolinite surfaces or trapped between its lamellae. An isotropic and/or orthorhombic species in the g = 4.2 region belongs to structural Fe 3+ replacing Al 3+ in sites with different crystal-field symmetries. It was verified that large iron oxide particles were responsible for keeping the kaolin whiteness at levels below 50%. Superparamagnetic iron particles mainly affect whiteness in the range of 50% 86%) were determined by Fe 3+ iron content in the kaolinite structure. However, only a small part of this species can be removed from the kaolinite structure by traditional industrial processing techniques. These results showed that EPR is a powerful technique to assist in controlling kaolin quality in industrial processes.
- Published
- 2010