Chemical and mineralogical characterization of archaeological building materials from Seyitömer Höyük, Kütahya, Turkey

Part of : Mediterranean archaeology & archaeometry : international journal ; Vol.12, No.1, 2012, pages 1-9

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Pages:
1-9
Section Title:
Articles
Author:
Abstract:
This paper focuses on the spectroscopic and thermal analysis of the archaeological samples of mortar and plaster from middle Bronze Age and Achaemenid period in Seyitφmer Hφyόk. The composition of the samples was investigated using X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier transform infrared (FTIR) spectroscopy and thermogravimetric thermal analysis (TG-DTA). The results showed that human used different types of raw materials in the preperation of the mortar and plaster in the Middle Bronze Age and Achaemenid period. The material used in middle Bronze Age contains muscovite whereas the material in Achaemenid period contains albite. Although, the chemical composition of the mortar and plaster used in the period were similar, the calcium content of the plaster is relatively higher than the one of the mortar indicating people’s awareness of the binding properties of calcite
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Subject (LC):
Keywords:
Mortar, Plaster, Archaeology, Seyitömer, XRD, XRF
Notes:
Corresponding author: aolgun@mail.dumlupinar.edu.tr, This research is a part of the Seyitφmer Archaelogy Project, directed by Dr. Nejat Bilgen since 2006. We thank Dumlupınar University, Turkish Coal Board and the Minister of Culture for generous funding.
References (1):
  1. Bilgen, A.N., (2008) the seyitömer excavation 2008. the meeting on the results of excavation, vol. 2, pages 71-83. (Seyitömer höyüğü 2008 yılı kazısı, Kazı Sonuçları Toplantısı, 2.Cilt, 71-83), Ankara, Turkey.Bilgen, A.N., Coşkun G., Bilgen Z., (2009) seyitömer excavation 2009. the Meeting on the results of excavation, vol. 1, pages 341-354.(Kazı Sonuçları Toplantısı, I.Cilt, 341-354, Denizli, Turkey.Bosch Reig, F., Gimeno Adelantado, J.V., Moya, Moreno, M.C.M., (2002) FTIR quantitative analysis of calcium carbonate (calcite) and silica (quartz) mixtures using the constant ratio method. Application to geological samples, talanta, 58, 811–821.Dello-Russo R.D., (2004) Geochemical Comparisons of Silicified Rhyolites from Two Prehistoric Quarrie and 11 Prehistoric Projectile Points, Socorro County, New Mexico, U.S.A., Geoarchaeology, 19, 237–264.Ige, O.A., Ogunfolakan, B.A., Ajayi, E.O.B., (2009) Chemical characterization of some potshred pavements from parts of Yorobuland in Southwestern Nigeria, journal of Archeological science, 36, 90-99Lambert, J.B., Vlasak, S.M., Thometz, A.C., Buıkstra, J.E., (1982) A Comparative Study of the Chemical Analysis of Ribs and Femurs in Woodland Populations, American journal of Physical Anthropology, 59, 289-294Madejova, J., (2003) FTIR techniques, in clay mineral studies, Vibrational spectroscopy, 31, 1-10.Moropoulu, A., Bakolas, A., Bisbikou, K., (1995) Thermal analysis as a method of characterizing ancient ceramic Technologies, thermochimica acta, 2570, 743-753Paama, L., Pitkanen I., Peramaki P., (2000). Analysis of archaelogical samples and local clays using ICP-AES, TG-DTG and FTIR techniques. talanta. 51, 349-357.Simpson, I.A., Guttmann, E.B., Cluett, J., Shepherd, A., (2006) Characterizing Anthropic Sediments in North European Neolithic Settlements:An Assessment from Skara Brae, Orkney, Geoarcgaeology, 21, 221-235.