|Autor||Diaz Gonçalves, T. and Brito, V. and Musacchi, J. and Pel, L. and Saidov, T. and Delgado Rodrigues, J. and Costa, D. and Mimoso, J.M.|
|Titel||Drying of porous building materials possibly contaminated with soluble salts: summary and findings of the DRYMASS research project|
|Link||Datei:1 SWBSS-2014 DiazGonclaves etal.pdf|
|Bemerkungen||In: De Clercq, Hilde (editor): Proceedings of SWBSS 2014. Third International Conference on Salt Weathering of Buildings and Stone Sculptures Royal Institute for Cultural Heritage, Brussels, Belgium, 14-16 October 2025, S. 1-15|
Eintrag in der Bibliographie
|[Diaz Gonçalves.etal:2014]||Diaz Gonçalves, T.; Brito, V.; Musacchi, J.; Pel, L.; Saidov, T.; Delgado Rodrigues, J.; Costa, D.; Mimoso, J.M. (2014): Drying of porous building materials possibly contaminated with soluble salts summary and findings of the DRYMASS research project. In: Hilde De Clercq (Hrsg.): Proceedings of SWBSS 2014 3rd International Conference on Salt Weathering of Buildings and Stone Sculptures ,KIK-IRPA, Royal Institute for Cultural Heritage Brussels 1-15, 10.5165/hawk-hhg/252|
soluble salts, drying, porous material, optical profilometry, lime coating
Moisture causes severe and recurring anomalies in the built heritage, but removing it from the solid and thick masonry walls of old constructions is not easy, especially when soluble salts are present. These salts crystallize during drying, may harm the materials and their aesthetics. Moreover, the salts themselves and the alterations they cause affect the underlying drying process through mechanisms that require clarification. The DRYMASS project aimed at improving the current understanding of drying and of how soluble salts can influence it. It also had the objective of verifying if drying can be accelerated by means of surface layers such as coatings, which would be of high technical interest for conservation. The work of the project involved evaporative drying tests on porous building materials contaminated with different salts. It included also a novel use of optical profilometry for monitoring salt decay processes, and NMR measurements to determine the crystallizing Na2SO4 phases. Main conclusions were that salts hinder drying because they reduce sorptivity and also, when compact efflorescence or a salt crust occurs, because these types of deposit obstruct vapour transport. It was also concluded that lime coatings can accelerate drying of several types of porous building material initially saturated with pure water. However, this effect may not manifest when salts are present because efflorescence morphology incorporates a component of chaotic uncertainty.
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