- Compaction Model for Highly Deformable Particle Assemblies doi link

Auteur(s): Cantor D., Cárdenas-Barrantes Manuel, Preechawuttipong Itthichai, Renouf M., Azema E.

(Article) Publié: Physical Review Letters, vol. 124 p.208003 (2020)

Ref HAL: hal-02632538_v1
DOI: 10.1103/PhysRevLett.124.208003
Exporter : BibTex | endNote

The compaction behavior of deformable grain assemblies beyond jamming remains bewildering, and existing models that seek to find the relationship between the confining pressure P and solid fraction ϕ end up settling for empirical strategies or fitting parameters. Using a coupled discrete-finite element method, we analyze assemblies of highly deformable frictional grains under compression. We show that the solid fraction evolves nonlinearly from the jamming point and asymptotically tends to unity. Based on the micromechanical definition of the granular stress tensor, we develop a theoretical model, free from ad hoc parameters, correctly mapping the evolution of ϕ with P. Our approach unveils the fundamental features of the compaction process arising from the joint evolution of grain connectivity and the behavior of single representative grains. This theoretical framework also allows us to deduce a bulk modulus equation showing an excellent agreement with our numerical data.

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