"Calcium hydroxide is typically used in Cultural Heritage conservation for superficial protective treatments. thanks to its conversion into calcium carbonate. Calcium carbonate is, in fact, compatible with many. carbonate-based architectonic surfaces, because its characteristics are similar to those of the restored. materials. In order to improve calcium hydroxide treatments, Ca(OH)2 particles with sub-micrometric. dimensions (nanolimes), are synthesised by a chemical precipitation process: a sodium hydroxide solution,. used as precipitator, is added, drop by drop, to a calcium chloride one. In this paper, a nanometric. calcium hydroxide, to be used in stones treatment, is produced adding in the initial solutions a surfactant. agent (Triton X-100); the solutions are then mixed together simultaneously, drastically reducing. the time needful for preparation. Different contents of surfactant are employed, and the influence on. particles dimension and carbonatation process is analysed too. The obtained Ca(OH)2 nanoparticles are. characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM) and electron diffraction. (ED). The Ca(OH)2 nanoparticles are regularly shaped, hexagonally plated and with side dimensions. less than 200 nm: in particular, increasing the surfactant content, the particle dimension reaches values. until 20 nm. Comparing nanolime suspensions obtained without and with the addition of the surfactant. agent, the last ones have comparable, if not better, performances in terms of average particle size. and morphology, crystallinity and reactivity. Afterwards, the alcoholic nanolime suspension obtained by. using Triton X-100 is applied on some natural stones; in fact, the aim of this section is to compare the. obtained results with those achieved using a nanolime synthesised without the surfactant agent. To evaluate. the treatment effectiveness in a preliminary way, standard tests are performed and compared with. the same tests previously obtained by the nanolime synthesised without the surfactant agent: “Scotch. Tape Test” and capillarity test."

Synthesis of Ca(OH)2 nanoparticles with the addition of Triton X-100. Protective treatments on natural stones: Preliminary results

DANIELE, VALERIA;TAGLIERI, GIULIANA
2012-01-01

Abstract

"Calcium hydroxide is typically used in Cultural Heritage conservation for superficial protective treatments. thanks to its conversion into calcium carbonate. Calcium carbonate is, in fact, compatible with many. carbonate-based architectonic surfaces, because its characteristics are similar to those of the restored. materials. In order to improve calcium hydroxide treatments, Ca(OH)2 particles with sub-micrometric. dimensions (nanolimes), are synthesised by a chemical precipitation process: a sodium hydroxide solution,. used as precipitator, is added, drop by drop, to a calcium chloride one. In this paper, a nanometric. calcium hydroxide, to be used in stones treatment, is produced adding in the initial solutions a surfactant. agent (Triton X-100); the solutions are then mixed together simultaneously, drastically reducing. the time needful for preparation. Different contents of surfactant are employed, and the influence on. particles dimension and carbonatation process is analysed too. The obtained Ca(OH)2 nanoparticles are. characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM) and electron diffraction. (ED). The Ca(OH)2 nanoparticles are regularly shaped, hexagonally plated and with side dimensions. less than 200 nm: in particular, increasing the surfactant content, the particle dimension reaches values. until 20 nm. Comparing nanolime suspensions obtained without and with the addition of the surfactant. agent, the last ones have comparable, if not better, performances in terms of average particle size. and morphology, crystallinity and reactivity. Afterwards, the alcoholic nanolime suspension obtained by. using Triton X-100 is applied on some natural stones; in fact, the aim of this section is to compare the. obtained results with those achieved using a nanolime synthesised without the surfactant agent. To evaluate. the treatment effectiveness in a preliminary way, standard tests are performed and compared with. the same tests previously obtained by the nanolime synthesised without the surfactant agent: “Scotch. Tape Test” and capillarity test."
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11697/89628
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