2015
DOI: 10.1346/ccmn.2015.0630506
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Modified Mineral Phases During Clay Ceramic Firing

Abstract: Ceramic clays are among the most complicated of ceramic systems because of the very intricate relationship between the behavior of minerals during ceramic processing and their modifications during heating. A major challenge is to predict the phase changes in clay ceramics. The aims of this study were to establish reference data of ceramic products that can be formed based on the mineralogical compositions of the local raw materials. These data, in turn, can be compared with archeological ceramics in order to s… Show more

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Cited by 96 publications
(68 citation statements)
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“…Clay does not have a particular mineral composition because its formation is due to the decomposition of fragmented pyrogenic, sedimentary and metamorphic rocks. Typical components of the raw material according to the "classical" triangular diagram [40][41][42] of Levin (1964) are various aluminosilicate compounds of SiO2 (45-70%), Al2O3 (10-30%) and CaO (<20%) with lesser admixtures of iron oxide (<6%) and magnesium (2-3%). The final mineral composition of ceramics and their magnetic properties are formed during firing (at typical temperatures of 600 o -1100 o C) and depends on the composition of the clay and the heating conditions (heating/cooling rate) and ventilation (oxidative-reducing atmosphere) in the kiln.…”
Section: Appentix a Remanent Magnetization In Ceramic Fracturesmentioning
confidence: 99%
“…Clay does not have a particular mineral composition because its formation is due to the decomposition of fragmented pyrogenic, sedimentary and metamorphic rocks. Typical components of the raw material according to the "classical" triangular diagram [40][41][42] of Levin (1964) are various aluminosilicate compounds of SiO2 (45-70%), Al2O3 (10-30%) and CaO (<20%) with lesser admixtures of iron oxide (<6%) and magnesium (2-3%). The final mineral composition of ceramics and their magnetic properties are formed during firing (at typical temperatures of 600 o -1100 o C) and depends on the composition of the clay and the heating conditions (heating/cooling rate) and ventilation (oxidative-reducing atmosphere) in the kiln.…”
Section: Appentix a Remanent Magnetization In Ceramic Fracturesmentioning
confidence: 99%
“…It is widely accepted that quartz and feldspar do not undergo significant variations at low temperatures, except for "alpha and beta" transition at~573 • C [5]. These changes in the original clay mineral structure can be considered an indication of the temperature reached by the clay object during firing [6]. In particular, illite/muscovite, minerals naturally present in Abu Tbeirah's clays are stable during the firing process up to 900 • C [6].…”
Section: Introductionmentioning
confidence: 99%
“…These changes in the original clay mineral structure can be considered an indication of the temperature reached by the clay object during firing [6]. In particular, illite/muscovite, minerals naturally present in Abu Tbeirah's clays are stable during the firing process up to 900 • C [6]. Clay minerals such as illite/muscovite are dehydroxylated close to 950 • [6].…”
Section: Introductionmentioning
confidence: 99%
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