Rehydroxylation dating

The original (time)1/4 model needs to be further developed and the more complex amalgamation model should be focused on in future research.TGA analysis, accompanied with x-ray diffraction, should complement all rehydroxylation to better understand the structure of samples and the potential influence of carbonates.Different levels of humidity have had a significant effect on mass gain, contrary to previous literature.Mathematical correction for temperature cannot compensate for imprecise methodology.Excavated materials prove difficult to date because of the different thermal environments of different loci.Measuring temperatures of different depths in the field should be explored to counteract this limitation.

Rehydroxylation (RHX) dating was recently suggested as a simple, cheap, and accurate method for dating ceramics.The chronological limits are tested using excavated material from Iron Age, Jordan while known age brick samples are used to explore the influence of extreme temperatures on the rehydroxylation rate.The reaction of the mass gain of samples in extreme thermal environments demonstrates the need for methodological precision as well as a uniform physical sample state.This technique is based upon dating the Stage II kinetics of the rehydroxylation process using a (time)1/4 power model.The original rehydroxylation method utilised very expensive equipment so this experiment proposes a different measurement protocol that most university laboratories can implement easily.

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