Phase transitions of ferruginous minerals in the course of thermal processing of feldspar-quartz raw materials from the Sobótka region (Lower Silesia)

Lewicka, Ewa

doi:10.1515/gospo-2017-0010

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…According to previous studies, the main minerals containing coloring elements are: chlorites, micas (biotite, muscovite and sericite), rutile, garnets, feldspars, monazite, zircon, xenotime, epidote (Fe-rich pistacite), magnetite, pyrite and Fe-Ti spinel (titanomagnetite). The basic constituent of the raw materials after firing is the amorphous phase, resulting from thermal decomposition of feldspars and partly quartz, accompanied by single quartz grains and other minerals characterized by high melting temperatures, such as zircon, Fe-Ti spinel, xenotime and monazite [5,6].…”

Section: Methodsmentioning

confidence: 99%

Investigations of Feldspar-Quartz Raw Materials After Firing: Effect of Various Na2O/K2O Ratio and Synthetic Pigments Addition

Lewicka

Trenczek-Zając

2020

Minerals

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Different techniques (chemical analysis, X-ray diffraction, Mössbauer spectroscopy, UV-Vis-NIR spectrophotometry and chromaticity measurements) were used to study the color variation of feldspathic raw materials after firing at 1200 °C. Two varieties of feldspar-quartz grits (with Na2O or K2O prevalence) doped with synthetic pigments (hematite and rutile) were heat-treated in an oxidizing atmosphere. The results obtained indicate that the color of the ceramic body after firing may not only depend on the presence and analytical content of coloring elements (such as iron and titanium), but on their valence state and the chemical characteristics of the melt itself. The prevalence of larger alkali K+ ions over Na+ ions may cause the reduction of the coordination number of iron. This has a significant effect on the length of the Fe–O bond, which in turn influences the capacity for light absorption of a specific wavelength. The results of spectrophotometric measurements showed pronounced disparity between the raw materials and samples doped with coloring oxides. The introduction of synthetic pigments caused clear changes in the spectral dependence of the total absorbance. The absorbance increased in the whole measuring range, in particular in the visible part of the spectrum. Furthermore, a red-shift of the absorption bands towards longer wavelengths attributed to oxygen-metal charge transfer (OMCT) interactions between Fe3+ and O2− ions as well as to d-d transitions within Fe3+ ions was observed.

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Section: Methodsmentioning

confidence: 99%