The present work aims to study the consolidating and protective chemical treatments of the Pietra Cantone, a Miocenic (lower Tortonian) limestone widely used in important monuments and historical buildings of Cagliari (southern Sardinia, Italy). Similar limestones of the same geological period have also been used in several important monuments of Mediterranean area, i.e., Malta and Gozo Islands, Matera (central Basilicata, Italy), Lecce (southern Puglia, Italy) and Balearic Islands (Spain). The Pietra Cantone limestone shows problems of chemical-physical decay, due to their petrophysical and compositional characteristics: high porosity (on average 28-36 vol%), low cemented muddy-carbonate matrix, presence of phyllosilicates and sindepositional sea salts (<3%). So, after placed in the monument, this stone is easily alterable by weathering chemical processes (e.g., carbonate dissolution and sulfation) and also by cyclic mechanisms of crystallization / solubilisation of salts and hydration / dehydration of hygroscopic phases of the clay component. To define the mineralogical-petrographic features (composition, texture) of limestone, the clay and salt crystalline phases, the optical microscope (OM) in polarized light and diffraction analysis (XRD) were used. To define the petrophysical characteristics (i.e., shape and size distribution of porosity, surface area (SBET), matrix micro-structures, rock composition) and interactions of chemical treatments with rock, SEM-EDS analysis and N2 porosimetry with BET and BJH methods were used. To evaluate the efficacy of Na/K-silicates, ethyl silicate consolidants and protective nano-molecular silane monomer water repellent, the mechanical strengths (uniaxial compressive strength, point load and flexural resistance), water/helium open porosity, water absorption and vapour permeability data determined before and after the chemical treatments of the Pietra Cantone samples from monument were compared.
Physical-mechanical consolidation and protection of Miocenic limestone used on Mediterranean historical monuments: the case study of Pietra Cantone (southern Sardinia, Italy)
COLUMBU, STEFANO;LISCI, CARLA;SITZIA, FABIO;
2017-01-01
Abstract
The present work aims to study the consolidating and protective chemical treatments of the Pietra Cantone, a Miocenic (lower Tortonian) limestone widely used in important monuments and historical buildings of Cagliari (southern Sardinia, Italy). Similar limestones of the same geological period have also been used in several important monuments of Mediterranean area, i.e., Malta and Gozo Islands, Matera (central Basilicata, Italy), Lecce (southern Puglia, Italy) and Balearic Islands (Spain). The Pietra Cantone limestone shows problems of chemical-physical decay, due to their petrophysical and compositional characteristics: high porosity (on average 28-36 vol%), low cemented muddy-carbonate matrix, presence of phyllosilicates and sindepositional sea salts (<3%). So, after placed in the monument, this stone is easily alterable by weathering chemical processes (e.g., carbonate dissolution and sulfation) and also by cyclic mechanisms of crystallization / solubilisation of salts and hydration / dehydration of hygroscopic phases of the clay component. To define the mineralogical-petrographic features (composition, texture) of limestone, the clay and salt crystalline phases, the optical microscope (OM) in polarized light and diffraction analysis (XRD) were used. To define the petrophysical characteristics (i.e., shape and size distribution of porosity, surface area (SBET), matrix micro-structures, rock composition) and interactions of chemical treatments with rock, SEM-EDS analysis and N2 porosimetry with BET and BJH methods were used. To evaluate the efficacy of Na/K-silicates, ethyl silicate consolidants and protective nano-molecular silane monomer water repellent, the mechanical strengths (uniaxial compressive strength, point load and flexural resistance), water/helium open porosity, water absorption and vapour permeability data determined before and after the chemical treatments of the Pietra Cantone samples from monument were compared.File | Dimensione | Formato | |
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Columbu et al. 2017_Cantone_10.1007_s12665-017-6455-6.pdf
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