Study of the correlation of the mechanical resistance properties of Macael white marble using destructive and non-destructive techniques
Metadatos
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Elsevier
Fecha
2024-02-07Referencia bibliográfica
M.P. Sáez-Pérez et al. Construction and Building Materials 418 (2024) 135400 [https://doi.org/10.1016/j.conbuildmat.2024.135400]
Patrocinador
Universidad de Granada. This research was funded by Pre-competitive Research Projects Program, belonging to the Research and Transfer Plan of the University of Granada (PP2022. PP.27) and was supported by the REMINE Project Programme for Research and Innovation Horizon 2020 Marie Skło- dowska-Curie Actions, Horizon 2020, WARMEST Project Research and Innovation Staff Exchange (RISE) H2020-MSCA-RISE-2017, RRRMaker project Marie Skłodowska-Curie Research and Innovation Staff Ex- change, and Scientific Unit of excellence “Ciencia en la Alhambra,” ref. UCE-PP2018-01 (University of Granada) and was carried out under the auspices of Research Group RNM 0179 and HUM 629 of the Junta de Andalucía.Resumen
The current research explores the influence of thermal gradients on the mechanical strength of Macael marble using both Non-Destructive Testing (NDT) and Destructive Testing (DT). The material undergoes various temperature gradients ( 20 and 300ºC) in sets of daily accelerated aging cycles (100 cycles). The results illustrate the impact of thermal gradients and reveal a decrease in the material’s mechanical properties of up to 24%.
Moreover, the reduction observed in the initial cycles at lower gradients (50 cycles, 20/50ºC) continues to
progress with the increasing intensity and number of cycles. Changes induced in the microstructure manifest as microcracks between calcite grains. The correlation coefficient R2 > 0.9 confirms the effectiveness of non- destructive tests as reliable techniques for assessing the material’s strength capacity and potential deterioration