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Rehydration and Rehydroxylation in Ancient Ceramics: New Constraints from Mass Gain Analyses Versus Annealing Temperatures
Author(s) -
Gallet Yves,
Le Goff Maxime
Publication year - 2015
Publication title -
journal of the american ceramic society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.9
H-Index - 196
eISSN - 1551-2916
pISSN - 0002-7820
DOI - 10.1111/jace.13674
Subject(s) - pottery , exponent , annealing (glass) , porosity , power law , ceramic , mineralogy , sorption , mass transfer , diffusion , materials science , thermodynamics , brownian motion , geology , chemistry , composite material , adsorption , archaeology , mathematics , history , physics , philosophy , linguistics , statistics
We present a series of new mass‐gain data acquired on ancient pottery following heating at increasing temperatures from 60°C to 590°C to further constrain our understanding of the rehydration and rehydroxylation ( RHX ) processes acting within archeological fired‐clay artifacts. The ancient pottery, deliberately chosen for its low‐porosity, is second century ad Samian ware fragments originating from Lezoux in central France. The mass‐gain data, after each temperature step, adequately define a (time) 1/ N power law. We demonstrate that values of the 1/ N exponent vary systematically with heating temperature. These results suggest that the sorption of chemisorbed and rehydroxylated water into the clay matrix occurs simultaneously. The 1/ N exponent values obtained are consistent with power law kinetics resulting from the combination of both one‐dimensional and Brownian diffusion processes. The balance between these two end‐member processes, in particular after heating at 500°C, may depend on the nature of the clay and on the manufacturing conditions of the studied ceramics. The results presented herein confirm previous claims that major complexities vitiate the RHX dating method proposed by Wilson et al.[1][M. A. Wilson, 2009]

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