Rock Alteration and its Relation to Surface Finishing

Zenaide Carvalho G. Silva; Joana M.M. da Cruz

doi:10.4028/www.scientific.net/KEM.548.189

Paper Titles

Application in Pottery of the Residual Soils Associated to Marbles from the Estremoz Anticlinal Region
p.147

Potential for Implementation of Environmental Management Systems & the EU Ecolabel in the Marble Sector
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An Investigation of Colour Properties of Orosei Limestones (Italy) by Using Computer Program
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Relationship between Colour Intensity and Water Content in Crema Loja Limestone
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Rock Alteration and its Relation to Surface Finishing
p.189

Characterization of "Xisto" as a Way to Promote its Use as Natural Stone
p.197

"Schist" from Trás-os-Montes and Alto Douro (NE of Portugal): Potential Use as Natural Stone
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The Example of the Quartzite from the "Upper Quartzite Formation" from Trás-os-Montes and Alto Douro (Northern Portugal); Its Characterization to Use as Natural Stone
p.212

Comparison of Young’s Moduli of Engineered Stones Using Different Test Methods
p.220

HomeKey Engineering MaterialsKey Engineering Materials Vol. 548Rock Alteration and its Relation to Surface...

Rock Alteration and its Relation to Surface Finishing

Abstract:

Rock finishing is a valuable tool used by architects to improve contrasts in decoration pattern in walls or building façades as they exhibit textures and color differences on their surfaces according to the type of finishing. When exposed to aggressive environment, these finishing impose different rate of alteration in the rocks as their ability to absorb humidity is also different for each type of finishing. Special types of silicate rocks underwent experiments in order to test their response to salt fog atmosphere. The study was centered on surface aspects of polished and honed finishing and their mass loss during seven salt fog cycles. All rocks studied are identified in the rock industry as granites although some are differently classified according to their petrography. They are: Blue Bahia, Belfast, Amazonite, Baltic Brown, Imperial Brown and Blue Labrador “Granites”. Each one has a particular feature to justify its inclusion in the study, as texture, mineral composition or specific occurrence and mineral association.

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Periodical:

Key Engineering Materials (Volume 548)

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189-196

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https://doi.org/10.4028/www.scientific.net/KEM.548.189

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Online since:

April 2013

Authors:

Zenaide Carvalho G. Silva, Joana M.M. da Cruz

Keywords:

Mass Loss, Rock Alteration, Silicate Rocks, Surface Finishing

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