Litcius/Paper detail

Effects of particle breakage on the compression behaviour of gap graded carbonate sand–silt mixtures

Lu Ma, C.F. Chiu, Yi Pik Cheng, Yuzhe Ren

2020Géotechnique Letters16 citationsDOIOpen Access PDF

Abstract

Isotropic compression tests were conducted on a series of gap-graded mixtures of a carbonate sand (CS) from the South China Sea and a fine crushed quartz silt. The purpose of these tests is to explore breakage mechanism of CS particles under varying fines content (FC). The weaker CS originally exhibited a unique compression line, whereas the stronger quartz silt originally had a stable soil fabric leading to non-convergent compression lines. It was found that the threshold FC indicating a change from CS to silt-dominated soil matrix, together with the suppression of particle breakage, have governed the change from converging to non-converging compression behaviour and from non-stable to stable soil fabric for these gap-graded soil mixtures. For FC ≤ 30%, the soil mixtures exhibited a unique compression line due to the substantial breakage of the weaker CS particles in the CS-dominated soil matrix. However, non-convergent compression lines were observed for the soil mixtures with FC ≥ 40% (threshold FC). It can be explained due to inability of weaker CS particles to participate in load bearing of the silt-dominated soil matrix. There was insignificant particle breakage of the CS with the initial soil fabric remaining stable at high stress.

Topics & Concepts

BreakageGeotechnical engineeringSiltCompression (physics)CarbonateGeologyParticle (ecology)Materials scienceComposite materialMetallurgyGeomorphologyOceanographyGrouting, Rheology, and Soil MechanicsFluid Dynamics Simulations and InteractionsRock Mechanics and Modeling
Effects of particle breakage on the compression behaviour of gap graded carbonate sand–silt mixtures | Litcius