Experimental tests for evaluating the stability of a new nano-silica based protective for Sperone stone in comparison to traditional products

This paper reports the results of a preliminary investigation aimed at testing the stability of a new functionalized nano-silica based protective, named Silo N7, in comparison to traditional commercial products, i.e. poly-siloxane and fluorinated elastomer. The product has been applied on an igneous...

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Main Authors: Pelosi, C., Lanteri, L., Agresti, G., Rubino, G., Persia, F., Bonifazi, G., Serranti, S., Capobianco, G.
Format: Conference Proceeding
Language:English
Subjects:
Capillarity
Contact angle
Cultural heritage
Cultural resources
Elastomers
Hyperspectral imaging
Igneous rocks
Performance evaluation
Silicon dioxide
Siloxanes
Stability analysis
Stone
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creator Pelosi, C.
Lanteri, L.
Agresti, G.
Rubino, G.
Persia, F.
Bonifazi, G.
Serranti, S.
Capobianco, G.
description This paper reports the results of a preliminary investigation aimed at testing the stability of a new functionalized nano-silica based protective, named Silo N7, in comparison to traditional commercial products, i.e. poly-siloxane and fluorinated elastomer. The product has been applied on an igneous rock known as Sperone stone, widely used in the south-east area of Rome, where the rock is mainly quarried. The work was performed within the activities of the ADAMO project as part of the Center of Excellence Technological District of Cultural Heritage of Lazio Region. The choice of the protective products and of the most suitable tests was made according to the standards UNI EN17114:2019 and UNI EN16581:2016 respectively. Colour measurements, contact angle evaluation, capillarity adsorption and hyperspectral imaging were performed to evaluate the performance of the chosen products.
doi_str_mv 10.1063/5.0023721
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Capillarity
Contact angle
Cultural heritage
Cultural resources
Elastomers
Hyperspectral imaging
Igneous rocks
Performance evaluation
Silicon dioxide
Siloxanes
Stability analysis
Stone
title Experimental tests for evaluating the stability of a new nano-silica based protective for Sperone stone in comparison to traditional products
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