Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones

Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones

This research explores the new perspectives in conservation and protection of two macroporous tuff stones, widely employed in the architectural heritage of Campania region, characterized by highly heterogeneous rock fabric and texture and a variable mineralogical composition that represent crucial f...

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Main Authors: Abner Colella, Ilaria Capasso, Fabio Iucolano
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Materials
Subjects:
lithium silicate
nano-silica
inorganic stone consolidants
Neapolitan Yellow Tuff
Campanian Ignimbrite
Online Access:https://www.mdpi.com/1996-1944/14/10/2513
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spelling doaj-8158488f8ff1440abdca9caf58b70ab62021-05-31T23:51:45ZengMDPI AGMaterials1996-19442021-05-01142513251310.3390/ma14102513Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic StonesAbner Colella0Ilaria Capasso1Fabio Iucolano2Dipartimento di Scienze della Terra, dell’Ambiente e delle Risorse(DiSTAR), University of Naples Federico II, Via Vicinale Cupa Cintia 21, 80126 Naples, ItalyDepartment of Engineering and Geology, University of Chieti-Pescara “G d’Annunzio”, Viale Pindaro 42, 65122 Pescara, ItalyACLabs-Applied Chemistry Labs, Department of Chemical, Materials and Industrial Production Engineering, University of Naples Federico II, P.le Tecchio 80, 80125 Naples, ItalyThis research explores the new perspectives in conservation and protection of two macroporous tuff stones, widely employed in the architectural heritage of Campania region, characterized by highly heterogeneous rock fabric and texture and a variable mineralogical composition that represent crucial factors responsible for their weak durability. The consolidation treatments were performed with a recently and widely used suspension of nano-silica crystals in water and with a lithium silicate solution that has received up to now scarce attention as a consolidant agent. Physical investigations (open porosity, Hg porosimetry, water absorption), morphological observations (SEM analyses) and visual appearance test (colorimetric measurements), along with assessments of performance indicators such as ultrasonic pulse velocity, surface cohesion test (peeling test) and durability test (salt crystallization), were carried out to investigate the consolidation effectiveness. Overall, lithium silicate consolidant showed a better behavior in terms of superficial cohesion, a most successful strengthening action and a considerable enhancement of salt resistance.https://www.mdpi.com/1996-1944/14/10/2513lithium silicatenano-silicainorganic stone consolidantsNeapolitan Yellow TuffCampanian Ignimbrite
collection DOAJ
language English
format Article
sources DOAJ
author Abner Colella
Ilaria Capasso
Fabio Iucolano
spellingShingle Abner Colella
Ilaria Capasso
Fabio Iucolano
Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
Materials
lithium silicate
nano-silica
inorganic stone consolidants
Neapolitan Yellow Tuff
Campanian Ignimbrite
author_facet Abner Colella
Ilaria Capasso
Fabio Iucolano
author_sort Abner Colella
title Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
title_short Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
title_full Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
title_fullStr Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
title_full_unstemmed Comparison of Latest and Innovative Silica-Based Consolidants for Volcanic Stones
title_sort comparison of latest and innovative silica-based consolidants for volcanic stones
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-05-01
description This research explores the new perspectives in conservation and protection of two macroporous tuff stones, widely employed in the architectural heritage of Campania region, characterized by highly heterogeneous rock fabric and texture and a variable mineralogical composition that represent crucial factors responsible for their weak durability. The consolidation treatments were performed with a recently and widely used suspension of nano-silica crystals in water and with a lithium silicate solution that has received up to now scarce attention as a consolidant agent. Physical investigations (open porosity, Hg porosimetry, water absorption), morphological observations (SEM analyses) and visual appearance test (colorimetric measurements), along with assessments of performance indicators such as ultrasonic pulse velocity, surface cohesion test (peeling test) and durability test (salt crystallization), were carried out to investigate the consolidation effectiveness. Overall, lithium silicate consolidant showed a better behavior in terms of superficial cohesion, a most successful strengthening action and a considerable enhancement of salt resistance.
topic lithium silicate
nano-silica
inorganic stone consolidants
Neapolitan Yellow Tuff
Campanian Ignimbrite
url https://www.mdpi.com/1996-1944/14/10/2513
work_keys_str_mv AT abnercolella comparisonoflatestandinnovativesilicabasedconsolidantsforvolcanicstones
AT ilariacapasso comparisonoflatestandinnovativesilicabasedconsolidantsforvolcanicstones
AT fabioiucolano comparisonoflatestandinnovativesilicabasedconsolidantsforvolcanicstones
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