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Utrjevanje historičnih materialov z utrjevalci na osnovi kalcijevega hidroksida in kalcijevega acetoacetata
ID Valenčič, Ana (Author), ID Skalar, Tina (Mentor) More about this mentor... This link opens in a new window

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Abstract
Kulturna dediščina je neprecenljiva vrednost nekega kraja ali države. Predmeti kulturne dediščine so podvrženi raznim procesom staranja in degradacije, kar vodi v njihovo propadanje. Zato uporabljamo utrjevanje, ki je eden ključnih postopkov ohranjevanja, ki ga ti predmeti potrebujejo, da preživijo v času. Pri procesu utrjevanja uporabljamo utrjevalce, to so različna veziva, razpršena v topilu, ki se nanesejo na propadajočo plast materialov, da se obnovi izgubljena kohezija med delci. Utrjevalci na osnovi Ca(OH)2 so zaradi svoje kemijske združljivosti z objekti na osnovi karbonata eden najbolj uporabljenih materialov pri utrjevanju. Med najbolj obetavnimi utrjevalci na osnovi Ca(OH)2 so nanodelci Ca(OH)2. Utrjevanje z nanodelci temelji na reakciji karbonatizacije. Med karbonatizacijo Ca(OH)2 delci reagirajo s CO2 iz zraka, kar vodi do nastanka CaCO3. Ta poveže ohlapne delce in zapolni razpoke; s tem utrdi razpadajočo porozno snov. Utrjevanje z nanodelci se je izkazalo zelo učinkovito za površinsko utrjevanje. Komercialna izdelka na osnovi nanodelcev sta CaloSil® in Nanorestore®, ki sta bila uporabljena pri različnih študijah in projektih. Kljub vsem dobrim lastnosti se pojavljajo težave, ko je potrebno globinsko utrjevanje. Zato je bila v okviru projekta HEROMAT razvita vodna raztopina kalcijevega acetoacetata – Ca(OAcAc)2, tudi CFW (Consolidant formulation water). Kalcijev acetoacetat v prisotnosti vode razpade do kalcijevega karbonata, ogljikovega dioksida in acetona. Utrjevalni učinek je dosežen, ko CO2 in aceton izhlapita in novonastali delci CaCO3 zapolnijo poškodovano podlago. CFW je v primerjavi z nanodelci pokazala večje prodiranje v podlago, manjše število nanosov, boljše izboljšanje mehanskih lastnosti ter ni imela večjega vpliva na barvo.

Language:Slovenian
Keywords:utrjevanje, kalcijev hidroksid, kalcijev acetoacetat
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2023
PID:20.500.12556/RUL-151023 This link opens in a new window
COBISS.SI-ID:173413123 This link opens in a new window
Publication date in RUL:27.09.2023
Views:657
Downloads:52
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Secondary language

Language:English
Title:Consolidation of historic materials with consolidants based on calcium hydroxide and calcium acetoacetate
Abstract:
Cultural heritage is the priceless value of a place or a country. Cultural heritage objects are subject to various aging and degradation processes that lead to a deterioration of their quality. For this reason, we resort to consolidation which is one of the most important conservation procedures that these objects need to survive over time. Consolidation involves the use of consolidants which are various binders dispersed in a solvent that is applied to the damaged layer of the materials to restore the lost cohesion between the particles. Ca(OH)2-based consolidants are one of the most commonly used materials for consolidation due to their chemical compatibility with carbonate-containing objects. Among the most promising Ca(OH)2-based consolidants are Ca(OH)2 nanoparticles. Consolidation with nanoparticles is based on a carbonation reaction. During carbonation, Ca(OH)2 particles react with CO2 from the air resulting in the formation of CaCO3. This binds the loose particles and fills the cracks solidifying the porous material. Nanoparticle consolidation is very effective for surface consolidation. Commercial nanoparticle-based products include CaLoSil® and Nanorestore®, which have been used in various studies and projects. Despite all their good properties, problems arise when deep consolidation is required. For this purpose, an aqueous solution of calcium acetoacetate – Ca(OAcAc)2, also known as CFW (Consolidant Formulation Water) – was developed as part of the HEROMAT project. Calcium acetoacetate decomposes in the presence of water to calcium carbonate, carbon dioxide, and acetone. The consolidation effect is achieved when CO2 and acetone evaporate and the newly formed CaCO3 particles fill the damaged substrate. CFW penetrates better into the substrate, needs to be applied less often, improves mechanical properties, and has no significant effect on color compared to nanoparticles.

Keywords:consolidation, calcium hydroxide, calcium acetoacetate

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