4.7 Article

Investigation of damage characteristics of coral reef limestone under uniaxial compression based on pore structure

Journal

ENGINEERING GEOLOGY
Volume 313, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.enggeo.2022.106976

Keywords

Coral reef limestone; Pore structure; Fractal dimension; Rock quality classification

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This study analyzed the uniaxial compression behavior and pore structural characteristics of four types of coral reef limestone (CRL) using the uniaxial compression test and CT scanning test. The results showed different types of CRL exhibited single-peak or multi-peak uniaxial compressive curves, with brittle failure occurring in Coral Framework Limestone (CFL) and Coral Boulder Limestone (CBL), and ductile failure with increasing porosity in Coral Gravel Limestone (CGL) and Coral Calcarenite Limestone (CCL). CT scanning test revealed the influence of pore structure on the damage mechanism of CRL. An empirical formula for estimating uniaxial compressive strength (UCS) of CRL based on fractal dimension was established, and a quality evaluation method suitable for practical engineering was proposed.
The variation of the biological source and diagenetic environment results in significant differences in pore structure and mechanical properties of coral reef limestone (CRL) with various structures. This study analyzed uniaxial compression behavior and pore structural characteristics of four types of CRL using the uniaxial compression test and computerized tomography (CT) scanning test. The influence mechanism of CRL's physical properties on its uniaxial compression characteristics was revealed from a microscopic perspective. The results suggested that the uniaxial compressive curves of different structural types of CRLs exhibited single-peak or multi-peak characteristics, in which Coral Framework Limestone (CFL) and Coral Boulder Limestone (CBL) mainly experienced brittle failure while Coral Gravel Limestone (CGL) and Coral Calcarenite Limestone (CCL) underwent ductile failure with the increase of porosity. Through a CT scanning test, the influence of pore structure on the damage mechanism of CRL was explored. According to the digital image analysis technique, the influence of CRL diagenesis on the pore fractal dimension was investigated from the perspective of geological genesis, and an empirical formula for estimating uniaxial compressive strength (UCS) of CRL was established based on the fractal dimension. Furthermore, a quality evaluation method for CRL suitable for practical engi-neering was proposed. The research results can provide a reference for the estimation of UCS and quality clas-sification evaluation of CRL in the construction of island reefs.

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