Litcius/Paper detail

The Role of Grain Size on Shear Localization Illuminated by Acoustic Emissions

Nathalie Casas, Carolina Giorgetti, Federico Pignalberi, Marco Maria Scuderi

2025Journal of Geophysical Research Solid Earth11 citationsDOIOpen Access PDF

Abstract

Abstract Shear localization within the fault core, as evidenced by grain comminution in fault gouge, plays a crucial role in the initiation of frictional instabilities. To upscale the physics of shear localization and understand the influence of grain size, it is essential to identify the governing physical parameters and micro‐mechanisms. In this study, we conducted double‐direct shear experiments on quartz fault gouges with varying initial grain sizes (coarse, small, and bi‐disperse mixtures) under constant normal stress and shearing velocity, while continuously monitoring Acoustic Emissions (AE). Microstructural analyses were performed on the deformed samples to complement the mechanical and AE data. Our results reveal that, while the initial grain size and distribution do not substantially alter the steady‐state friction coefficient, they significantly influence the early stages of frictional evolution leading to a steady state, which is reflected in a different rate and amplitude of AEs. Specifically, coarse grains and bi‐disperse mixtures exhibit strain‐hardening behavior before reaching steady‐state friction, whereas fine grains show strain‐weakening behavior. Microstructural observations further indicate that bi‐disperse mixtures retard the localization of deformation with increasing fault displacement. The AE data shows a strong dependence on both the average grain size and the evolving state of the gouge layer. Notably, there is a direct correlation between b‐value evolution and the average grain size within the gouge. These findings suggest that variations in the characteristics of AE are indicative of distinct micro‐mechanisms active during different stages of shear localization, which cannot be fully captured by mechanical data and microstructural analysis alone.

Topics & Concepts

Grain sizeShear (geology)Acoustic emissionMaterials scienceAcousticsComposite materialPhysicsRock Mechanics and ModelingGeophysical Methods and ApplicationsSeismic Waves and Analysis