Effect of particle size and composition of granitic sands on the radiological behaviour of mortars

Although primarily deemed to be an ornamental stone, granite may also be ground into fines for use in cement mortars, where it exhibits high strength and durability. Both the 40K present in the stone and the natural decay series of its uranium, thorium and actinium components exhibit high activity c...

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Bibliographic Details
Published in:Boletín de la Sociedad Española de Cerámica y Vidrio (1983) 2022-09, Vol.61 (5), p.561-573
Main Authors: Suárez-Navarro, José Antonio, Alonso, María del Mar, Gascó, Catalina, Pachón, Alicia, Carmona-Quiroga, Paula María, Argiz, Cristina, Sanjuán, Miguel Ángel, Puertas, Francisca
Format: Article
Language:English
Subjects:
Activity concentration index
Chemical and mineralogical composition
Gamma spectroscopy
Granite
HJ-Biplot
Mortar
Particle size
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Summary:Although primarily deemed to be an ornamental stone, granite may also be ground into fines for use in cement mortars, where it exhibits high strength and durability. Both the 40K present in the stone and the natural decay series of its uranium, thorium and actinium components exhibit high activity concentrations. An understanding is therefore needed of the correlation among the different particle sizes in granite aggregate to assess their contribution to a mortar's activity concentration index (ACI). This study analyses the variation in ACI with particle size in three types of granite based on the chemical, mineralogical and radiological characterisation of five size fractions. The activity concentrations of the thorium and uranium natural decay series were highest in the finest fractions. A correlation was observed between thorium and the MgO and Fe2O3 normally present in mica group phyllosilicates. In two of the three granites, the mortars prepared with the smallest size particles had ACI values >1.
ISSN:0366-3175
DOI:10.1016/j.bsecv.2021.05.001