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Please use this identifier to cite or link to this item:
http://hdl.handle.net/10174/36827
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Title: | Stone Endurance: A Comparative Analysis of Natural and Artificial Weathering on Stone Longevity |
Authors: | Lisci, Carla Sitzia, Fabio Pires, Vera Aniceto, Marco Mirão, José |
Keywords: | stone longevity; coating durability; building stones; heritage and architecture; stone transformation |
Issue Date: | 2-Jun-2023 |
Publisher: | MDPI |
Citation: | Lisci, C.; Sitzia, F.; Pires, V.; Aniceto, M.; Mirão, J. Stone Endurance: A Comparative Analysis of Natural and Artificial Weathering on Stone Longevity. Heritage 2023, 6, 4593-4617. https://doi.org/10.3390/heritage6060244 |
Abstract: | The long-term endurance of building stones must be assured since their longevity has repercussions for their economic and social value. Frequently, slabs for flooring and cladding are installed with polished finishing in outdoor environments for technical and ornamental purposes in cultural heritage sites and modern civil architecture. Compared to any other finishing, glossy surfaces are rather vulnerable to wear, particularly when they interact with slightly acidic rainwater. Several hydrophobic treatments are applied to prevent this damage by preventing contact between rain and stone; such treatments are efficient but sometimes non-durable. Stakeholders and conservation scientists need better methods to anticipate the future behaviour of this building material and hydrophobic solutions. Complying with this demand, a comparison is made between outdoor natural ageing and artificial weathering, reproduced by UVA radiation, moisture and spray accelerated weathering. Artificial weathering is applied to predict the behaviour of stones over time in the real environment. Data obtained through the measurement of gloss and colour parameters, the detection of micro-textures through SEM, and the calculation of micro-roughness using a digital rugosimeter demonstrate that weakly acidic rainwater is the main cause of superficial decay of stone finishing over just six months of outdoor exposure. This period corresponds to 7–14 days of artificial weathering. Furthermore, the loss of efficiency and durability of the hydrophobic coatings is detected by measuring the static contact angle. This highlights that even if a protective treatment was proficient, it could easily deteriorate in normal weathering conditions if applied on polished, low-porosity stone. Additionally, water vapour permeability indicates variations of regular vapour transmission through the stones due to ageing. The first solution to threats is the prevention of pathologies, including aesthetic ones. A careful choice of the most suitable lithotype finish and an environmental study represent an existing solution to the problem. It must be highlighted that aesthetic requirements should not be prioritised to detriment of the technical requirements of architectural quality, performance, durability, and safety. |
URI: | https://www.mdpi.com/2571-9408/6/6/244 http://hdl.handle.net/10174/36827 |
Type: | article |
Appears in Collections: | HERCULES - Publicações - Artigos em Revistas Internacionais Com Arbitragem Científica
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