Tunable mechanical properties and air-based lubrication in an acoustically levitated granular material

Cohesive granular materials are found in many natural and industrial environments, but experimental platforms for exploring the innate mechanical properties of these materials are often limited by the difficulty of adjusting cohesion strength. Granular particles levitated in an acoustic cavity form...

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Bibliographic Details
Published in:arXiv.org 2024-12
Main Authors: Brown, Nina M, VanSaders, Bryan, Kronenfeld, Jason M, DeSimone, Joseph M, Jaeger, Heinrich M
Format: Article
Language:English
Subjects:
Acoustic scattering
Acoustics
Cohesion
Deformation effects
Grains
Granular materials
Interstices
Mechanical properties
Pressure dependence
Rafts
Shear tests
Sound fields
Substrates
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Summary:Cohesive granular materials are found in many natural and industrial environments, but experimental platforms for exploring the innate mechanical properties of these materials are often limited by the difficulty of adjusting cohesion strength. Granular particles levitated in an acoustic cavity form a model system to address this. Such particles self-assemble into free-floating, quasi-two-dimensional raft structures which are held together by acoustic scattering forces; the strength of this attraction can be changed simply by modifying the sound field. We investigate the mechanical properties of acoustically bound granular rafts using substrate-free micro-scale shear tests. We first demonstrate deformation of rafts of spheres and the dependence of this deformation on acoustic pressure. We then apply these methods to rafts composed of anisotropic sand grains and smaller spheres, in which the smaller spheres have a thin layer of air separating them from other grain surfaces. These spheres act as soft, effectively frictionless particles that populate the interstices between the larger grains, which enables us to investigate the effect of lubricating the mixture in the presence of large-grain cohesion.
ISSN:2331-8422