Predicting Mechanical Properties of Carbonate Rocks Using Spectroscopy Across 0.4–12 μm

D. Bakun-Mazor*, Y. Ben-Ari, S. Marco, E. Ben-Dor

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Determining the mechanical characteristics of rocks is crucial in various civil engineering sectors. Traditionally, the mechanical properties of rocks are determined through on-site and laboratory tests carried out during geotechnical surveys. However, these extensive surveys require considerable time and resources. In contrast, hyperspectral remote sensing techniques offer a rapid and simple means to determine the mineral composition and crystallographic structure of rocks. These features, in turn, influence the rocks' mechanical properties. This study focuses on characterizing the mechanical properties of carbonate rocks in a laboratory setting, using hyperspectral sensors. Approximately 150 cylindrical carbonate rock samples, spanning a wide strength range, were collected from diverse Israeli rock outcrops. Employing a point spectrometer (0.4 to 2.5 µm) and a spectral image sensor (8.0 to 12.0 µm), we captured samples' light reflections and spectral emissivity. Mechanical attributes, including density, porosity, water absorption, and uniaxial compressive strength (UCS), were measured. Advanced data mining techniques identified statistical correlations between hyperspectral signatures and mechanical properties, pinpointing key wavelengths for prediction. The developed models exhibited excellent predictability for the specified properties, attributing accuracy to discernible mineralogy and internal crystalline structure through spectroscopy. However, predicting UCS showed slightly weaker results due to influences from internal flaws not entirely reflected in spectroscopic data. Nonetheless, outcomes regarding rock UCS were deemed satisfactory. These findings open avenues for non-destructive tools in assessing the mechanical properties of rocks in quarrying operations.

Original languageEnglish
JournalRock Mechanics and Rock Engineering
DOIs
StateAccepted/In press - 2024

Funding

FundersFunder number
Ministry of Energy, Israel220-17-011
Ministry of Energy, Israel

    Keywords

    • Carbonate rock
    • Hyperspectral sensors
    • Mechanical properties of rocks
    • Remote sensing
    • Rock mass characterization

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