Journal
MATERIALS & DESIGN
Volume 115, Issue -, Pages 82-92Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.matdes.2016.11.037
Keywords
Oxalate; Marble; Whewellite; Glushinskite; Protective treatment
Categories
Funding
- Spanish Government [MAT2012-37584, CGL2012-35992, CGL2015-70642-R]
- Junta de Andalucia [RNM-179, P11-RNM-7550]
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Naturally formed rims of calcium oxalates developed on calcareous stones have been recognized as effective protective coatings. Inspired in nature, it has been recently proposed the use of oxalate salts for the protection of stone surfaces via dissolution of the calcitic substrate and the subsequent precipitation of oxalate phases. In contrast, the application of an oxalic acid solution on carbonate stones has been generally avoided due to assumed hazards associated with enhanced substrate dissolution. Nonetheless, it has been reported that coherent oxalate layers and preservation of textural features only occurs at low pH, which could be beneficial from a conservation point of view. Here, the application of oxalic acid treatments on two calcitic and dolomitic Spanishmarbles from Macael area has been studied as a means to develop effective oxalate protective coatings. Morphological and compositional analyses showthat reacted marble surfaces develop mu m-thick calcium or calciumand magnesium oxalate rims on calcitic and dolomiticmarble, respectively. The presence of such oxalate layers strongly reduces chemical weathering due to acid dissolution and sulfation, without altering the color of the marble substrates. This protection methodology overcomes the limitations of previous oxalate treatments and may represent a highly efficient conservation methodology. (C) 2016 Elsevier Ltd. All rights reserved.
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