Relationship between Na2SO4 concentration and thermal response of reconstituted stone in the laboratory and on site

The reconstituted stone used in the Orval Abbey is highly susceptible to salt weathering. It was produced from debris of natural stones (which were at that time in short supply) by craftsmen working in the Abbey and its composition is highly variable. The major salt involved in weathering is sodium...

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Bibliographic Details
Published in:Environmental earth sciences 2016-05, Vol.75 (9), Article 762
Main Authors: Thomachot-Schneider, Céline, Gommeaux, Maxime, Lelarge, Norman, Conreux, Alexandra, Mouhoubi, Kamel, Bodnar, Jean-Luc, Vázquez, Patricia
Format: Article
Language:English
Subjects:
Biogeosciences
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Geochemistry
Geology
Geomaterials used as construction raw materials and their environmental interactions
Hydrology/Water Resources
Petrography
Sciences of the Universe
Terrestrial Pollution
Thematic Issue
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Summary:The reconstituted stone used in the Orval Abbey is highly susceptible to salt weathering. It was produced from debris of natural stones (which were at that time in short supply) by craftsmen working in the Abbey and its composition is highly variable. The major salt involved in weathering is sodium sulfate (Na 2 SO 4 ). This study focused on the thermal behavior of a reconstituted stone with various degrees of weathering observed on-site and it was studied by passive and active infrared thermography (IRT), and on the evolution of reconstituted-stone samples in a salt uptake experiment in the laboratory. On-site, the thermal responses of salt-weathered and unweathered zones were different. IRT allowed to detect unweathered though highly salt-laden zones, although correlations between thermal response and salt concentration are difficult to establish due to the influence of surface properties (color and roughness). In the laboratory, samples of the reconstituted stone were submitted to successive immersion-drying cycles in solutions of Na 2 SO 4 with 7, 14 and 26 % concentration and characterized by weighing, surface colorimetry and active IRT. Results showed that the thermal response (increase in surface temperature due to flash excitation: T max ) increased with salt concentration and with the number of cycles, as long as sample disintegration had not started. Then, it decreased and stabilized, whatever the salt concentration. Those results indicated that an increase in the thermal response of building materials (in active IRT) can be interpreted as an indicator of salt accumulation, possibly leading to damage. IRT proved to be an interesting non-destructive technique in this respect.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-016-5388-9