Details

Autor(en) / Beteiligte

• Gheno, Giulia
• Badetti, Elena
• Brunelli, Andrea
• Ganzerla, Renzo
• Marcomini, Antonio

Titel

Consolidation of Vicenza, Arenaria and Istria stones: A comparison between nano-based products and acrylate derivatives

Ist Teil von

• Journal of cultural heritage, 2018-07, Vol.32, p.44-52

Ort / Verlag

Elsevier Masson SAS

Erscheinungsjahr

2018

Quelle

Elsevier ScienceDirect Journals

Beschreibungen/Notizen

• •Nano-based formulations and acylates derivatives highlighted different consolidation performances.•Acrylate derivatives formed a film on the surface of the treated stones.•The highest surface variations were observed after natural aging instead of UVB aging.•Vicenza stone was the most sensitive material towards aging degradation.•Stones consolidated with nano-based dispersions showed the lowest color and gloss variations. Nano-based formulations are emerging as successful materials besides the use of conventional products for the consolidation of carbonate works of art e.g. stone, mortars or mural paintings. In this work, the physico-chemical characteristics, performances and consolidation efficacy in terms of external appearance of commercial NanoRestore Ca(OH)2 and NanoEstel SiO2 dispersions were investigated and compared with two commercial acrylates derivatives, Acril 33 and Acril ME. The colloidal stability of the different consolidants was investigated by dynamic light scattering (DLS) and centrifugal separation analysis (CSA) techniques. As expected, acrylate emulsions showed a higher colloidal stability than the inorganic nanoparticle dispersions, with sedimentation velocity from 10−4 to 10−2μm/s. The examined consolidants were applied on three different stones, widely used in historical buildings in Venice: Vicenza, Arenaria and Istria stones, representing macro-, meso- and microporous materials, respectively. The absorption capacity, color and gloss variation of the different stone materials were comparatively evaluated after the consolidants application. An accordance among porous structure of the substrates, hydrodynamic particle size and amount of consolidants absorbed was observed for nano-based formulations. The weathering resistance under natural and UVB aging conditions were also investigated for the consolidated stone samples, and recorded as changes of color, gloss and surface morphology. NanoRestore and NanoEstel showed the best performances under the natural aging while the UVB irradiation seemed to not induce significant modification in the surface morphology of the treated stone samples.