https://orcid.org/0000-0003-4527-0816
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ABSTRACT
Volcanic cinder is a low-cost subgrade fill material in East Africa. A reluctance to use volcanic cinders for subgrades in the past has stemmed from the compactness is substandard and variable. Considering the irregular shape of volcanic cinders, the compactness can be improved by controlling particle shapes. The shape feature can be described from the macro-meso-microscopic scales through the improved algorithms of shape indexes, namely elongation (EI), roundness (Rd), and roughness (Rg). The shape indexes were calculated based on 2D contours of 1000 volcanic cinder particles, and the influences of shape indexes on accumulation behaviors are explored from macro-mesoscales through the discrete element method (DEM). The shape indexes of volcanic cinders are normally distributed, and EI has the widest variation range. The mesoscale index Rd has an interval effect on compactness and coordination number, whereas are nearly unaffected by the microscale index Rg. The effect of elongation on particle accumulation behavior is stronger than roundness and roughness. Compactness is positively correlated with EI, and the force-fabric anisotropy degree weakens with increasing EI. Studies of shape quantification provide data reference for improving the utilization rate and accumulation compactness, which promotes the application of volcanic cinders in subgrade constructions.
Acknowledgments
This research was supported by the Beijing Municipal Science and Technology Project (No. Z181100003918005) and the Fundamental Research Funds for the Central Universities of Central South University (No. 2021zzts0247). The authors would like to express their appreciation for the financial assistance. Besides, the authors would also like to express gratitude to Dr. *** (anonymization) for their assistance in contour acquisition and numerical simulation.
Disclosure statement
No potential conflict of interest was reported by the author(s).