Chemical, Phase Compositions and Porosity Structure of the Plinth Brick of the White Tower (Greece) of Age Greater Than 450 Yr

Oxide chemical analysis of White Tower samples showed that the major oxides (content > 5%) are, %: SiO 2 –50.07; Al 2 O 3 – 16.3; Fe 2 O 3 – 7.04; CaO – 9.08. The loss on ignition is 11.32. In addition, elemental analysis determined a heightened carbon content carbon – 9.59%. The heightened carbo...

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Bibliographic Details
Published in:Glass and ceramics 2019-07, Vol.76 (3-4), p.152-154
Main Authors: Abdrakhimova, E. S., Abdrakhimov, V. Z.
Format: Article
Language:English
Subjects:
Aluminum oxide
Analysis
Anorthite
Carbon
Carbon content
Ceramics
Characterization and Evaluation of Materials
Chemical analysis
Chemical composition
Chemistry and Materials Science
Composites
Glass
Hematite
Inclusions
Materials Science
Natural Materials
Organic chemistry
Plagioclase
Porosity
Silicon dioxide
Sintering
Sintering (powder metallurgy)
Wollastonite
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Summary:Oxide chemical analysis of White Tower samples showed that the major oxides (content > 5%) are, %: SiO 2 –50.07; Al 2 O 3 – 16.3; Fe 2 O 3 – 7.04; CaO – 9.08. The loss on ignition is 11.32. In addition, elemental analysis determined a heightened carbon content carbon – 9.59%. The heightened carbon content (9.59%) in the inclusions attests the introduction of fuel into the green body, which increases the porosity of the articles and promotes uniform sintering of the ceramic, and the heightened content of alkali oxides (R 2 O > 3 – 4%) promotes the formation of a glass phase up to 1000°C. X-ray phase analysis showed the presence of anorthite, hematite, and wollastonite, which promotes greater strengthening. Moreover, the presence of isometric pores and oval closed porosity in the ceramic samples increases durability.
ISSN:0361-7610
1573-8515
DOI:10.1007/s10717-019-00153-y