TY - JOUR
T1 - Rehydroxyiation of clay minerals and hydration in ancient pottery from the 'Land of Geshur'
AU - Shoval, S.
AU - Beck, P.
AU - Kirsh, Y.
AU - Levy, D.
AU - Gaft, M.
AU - Yadin, E.
N1 - Copyright:
Copyright 2007 Elsevier B.V., All rights reserved.
PY - 1991/7
Y1 - 1991/7
N2 - Rehydroxylation of clay minerals and hydration in Bronze and Iron Age pottery from the 'Land of Geshur' (east of the Sea of Galilee), were investigated by IR thermospectrometry. A weak OH band, which resembles those in smectite or illite, exists in most samples, but it is masked by the water bands at lower temperature. Two types of transformation of clay minerals occur during firing of raw materials, reversible and nonreversible dehydroxylation, taking place at a relatively low and high firing temperatures, respectively. Clay minerals rehydroxylate and reconstruct after relatively higher firing temperatures in noncalcareous raw materials than in calcareous ones. These processes take place after higher temperatures in cooking pots made from the former type of raw material as compared with storage and table-ware vessels made from the latter. The absorbed water in the pottery is mainly connected with the dominant X-ray amorphous matter formed by the firing process.
AB - Rehydroxylation of clay minerals and hydration in Bronze and Iron Age pottery from the 'Land of Geshur' (east of the Sea of Galilee), were investigated by IR thermospectrometry. A weak OH band, which resembles those in smectite or illite, exists in most samples, but it is masked by the water bands at lower temperature. Two types of transformation of clay minerals occur during firing of raw materials, reversible and nonreversible dehydroxylation, taking place at a relatively low and high firing temperatures, respectively. Clay minerals rehydroxylate and reconstruct after relatively higher firing temperatures in noncalcareous raw materials than in calcareous ones. These processes take place after higher temperatures in cooking pots made from the former type of raw material as compared with storage and table-ware vessels made from the latter. The absorbed water in the pottery is mainly connected with the dominant X-ray amorphous matter formed by the firing process.
UR - http://www.scopus.com/inward/record.url?scp=0026192984&partnerID=8YFLogxK
U2 - 10.1007/BF01913490
DO - 10.1007/BF01913490
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AN - SCOPUS:0026192984
SN - 0368-4466
VL - 37
SP - 1579
EP - 1592
JO - Journal of Thermal Analysis
JF - Journal of Thermal Analysis
IS - 7
ER -