In situ polymerization of 3-glycidoxypropyl trimethoxysilane (GLYTS) as a new tool for stone conservation.

The effectiveness, as stone restoration materials, of a series of polymers obtained by "in situ polymerization" of the epoxy derivative 3-glycidoxypropyltrimethoxysilane (GLYTS) with the primary amine 3-aminopropyltriethoxysilane (ATS), at various molar ratios and concentrations, has been explored through selected preliminary tests. The experiments carried on a low-porosity quartzite show that, independently from concentration and molar ratio, all of the mixtures fail to significantly affect the porosimetric and hydric properties of this stone while inducing not negligible chromatic alterations. As it concerns high porosity stones, such as Comiso calcarenite, the 2:1 15% mixture only has been selected for further experiments since preliminary tests show that it acts as an excellent barrier against water penetration either by capillarity as by total immersion while showing only negligible chromatic alterations.

Trimethoxysilylpolymethacrylate as new material for stone conservation. Porosimetric and colorimetric investigations.

Aimed to obtain new materials for the conservation of stone substrates, we report here on the synthesis of a polymer which has been obtained by inducing polymerization on a methacrylate monomer functionalized by alchoxysilane groups. Two lithotypes, the Comiso calcarenite and Mistretta quartzite, stones largely used in artworks of north-eastern Sicily, were treated with the above polymer and its conserving efficacy evaluated in terms of porosimetric features, hydric properties and appearance. The collected data were compared to those provided, under the same experimental conditions, by an ethylmethacrylate/methylmethacrylate copolymer and an alkylalchoxysilane, products widely employed in the protection of stones. Experiments aimed to test the durability of the above polymer against UV artificial ageing are also reported.