Historical plasterwork techniques inspire new formulations

•Lime putty, gypsum, rabbit skin glue, sand, limestone fines and marble dust were used.•100% Substitution of sand by limestone fines of an “Escaiola” is studied for the first time.•Marble cut waste in mortar increases the strength and durability. This study is inspired by a revival of traditional st...

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Veröffentlicht in:	Construction & building materials 2013-11, Vol.48, p.858-867
Hauptverfasser:	Salavessa, Eunice, Jalali, Said, Sousa, Luís M.O., Fernandes, Lisete, Duarte, Ana Maria
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Density Forecasts and trends Industrial wastes Mechanical tests Mortar Plasterwork Stuccowork Water absorption
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creator	Salavessa, Eunice Jalali, Said Sousa, Luís M.O. Fernandes, Lisete Duarte, Ana Maria
description	•Lime putty, gypsum, rabbit skin glue, sand, limestone fines and marble dust were used.•100% Substitution of sand by limestone fines of an “Escaiola” is studied for the first time.•Marble cut waste in mortar increases the strength and durability. This study is inspired by a revival of traditional stuccoes, plasterwork and recent research on plastering. It includes descriptions of old and new material production techniques with an expected long service life to minimize waste production. A detailed review of the stuccoes and plasters from historical construction treatises was carried out. Their constituents, as well as their functions were studied, and an equivalent eco-mortar was formulated. XRD, EDS, MIP, BET and XRF analysis of the mortars components provided their mineralogical, microstructure and chemical characterization. Petrographic analysis supplied data on the mortars voids. The effect of waste marble and limestone dust on physic-mechanical properties of the eco-mortar was studied in order to find better solutions for restoration interventions. The elastic modulus and compressive and flexural strength of each plaster layer was correlated with the cracking prevention capacity of the mortar. The coefficient of water absorption was estimated in order to study the water exchange behavior between the last two layers of stuccoes and plasters. Furthermore, their behavior with respect to humidity was studied.
doi_str_mv	10.1016/j.conbuildmat.2013.07.064
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This study is inspired by a revival of traditional stuccoes, plasterwork and recent research on plastering. It includes descriptions of old and new material production techniques with an expected long service life to minimize waste production. A detailed review of the stuccoes and plasters from historical construction treatises was carried out. Their constituents, as well as their functions were studied, and an equivalent eco-mortar was formulated. XRD, EDS, MIP, BET and XRF analysis of the mortars components provided their mineralogical, microstructure and chemical characterization. Petrographic analysis supplied data on the mortars voids. The effect of waste marble and limestone dust on physic-mechanical properties of the eco-mortar was studied in order to find better solutions for restoration interventions. The elastic modulus and compressive and flexural strength of each plaster layer was correlated with the cracking prevention capacity of the mortar. The coefficient of water absorption was estimated in order to study the water exchange behavior between the last two layers of stuccoes and plasters. Furthermore, their behavior with respect to humidity was studied.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.conbuildmat.2013.07.064</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis Density Forecasts and trends Industrial wastes Mechanical tests Mortar Plasterwork Stuccowork Water absorption
title	Historical plasterwork techniques inspire new formulations
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