Chemical and mineralogical characterization of portuguese ceramic tiles in the historic center of São Luís do Maranhão (Brazil): an approximation of the mineralogy and firing temperature of the raw materials

Mercury, José Manuel Rivas; Pereira, Domingos de Jesus Costa; Vasconcelos, Nazaré do Socorro Lemos Silva; Cabral, Aluísio A.; Angélica, Rômulo Simões

doi:10.1590/s0370-44672013000100012

Cited by 2 publications

(1 citation statement)

References 9 publications

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“…For example, montmorillonite and kaolinite clay minerals are originally present in the Nile alluvium sediments [4] and are not present in any of the studied brick samples, clearly indicates the firing temperatures for the brick samples studied exceeded 700°C result in their decomposition with release of free silica and alumina. In the interval of 600 to 800°C, carbonates completely decomposed [24], giving rise to the formation of free lime (CaO). At approximately 700°C, metastable gehlenite (2CaO.…”

Section: Discussionmentioning

confidence: 99%

Historical Bricks Deterioration and Restoration From the Red Monastery, Sohag, Egypt: A Geochemical, Petrological and Statistical Approaches

Abd-Elkareem

Ali

Elsheikh

2017

Egyptian Journal of Archaeological and Restoration Studies

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The present study investigates for the first time the historical bricks of The Red Monastery (west Sohag, Egypt), built about fifth century AD, which showing several aspects of brick decay. Several techniques were employed (geochemical, petrographical, mineralogical and morphological) to determine their deterioration features and provenance of the raw material as well as shed lights on the firing techniques. In addition, integration of geochemical data with multivariate statistics (i.e. Cluster Analysis, Principal Component Analyses and Linear Discriminant Analyses) were used to provide insights into the nature and provenance of the raw material. Potential geological raw materials for bricks manufacturing, were taken from modern floodplain (Nile alluvium) and calcareous clay deposits from lowland desert near the monument site, and subjected to chemical analyses, to compare them with the chemical composition of the studied bricks. Results show that the starting raw materials for bricks were probably obtained by mixing Nile alluvium (quarried from the Nile River floodplain deposits) with the possible introduction of a calcium carbonate-rich flux component as a temper. This will provide guidelines for future conservation strategy for making new compatible and durable bricks and/or materials to be utilized for restoration, and contributes to the preservation of the historical masonry under study.

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Section: Discussionmentioning

confidence: 99%