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Tuning Jammed Frictionless Disk Packings from Isostatic to Hyperstatic

Soft Condensed Matter 2011-08-08 v1 Statistical Mechanics

Abstract

We perform extensive computational studies of two-dimensional static bidisperse disk packings using two distinct packing-generation protocols. The first involves thermally quenching equilibrated liquid configurations to zero temperature over a range of thermal quench rates rr and initial packing fractions followed by compression and decompression in small steps to reach packing fractions ϕJ\phi_J at jamming onset. For the second, we seed the system with initial configurations that promote micro- and macrophase-separated packings followed by compression and decompression to ϕJ\phi_J. We find that amorphous, isostatic packings exist over a finite range of packing fractions from ϕminϕJϕmax\phi_{\rm min} \le \phi_J \le \phi_{\rm max} in the large-system limit, with ϕmax0.853\phi_{\rm max} \approx 0.853. In agreement with previous calculations, we obtain ϕmin0.84\phi_{\rm min} \approx 0.84 for r>rr > r^*, where rr^* is the rate above which ϕJ\phi_J is insensitive to rate. We further compare the structural and mechanical properties of isostatic versus hyperstatic packings. The structural characterizations include the contact number, bond orientational order, and mixing ratios of the large and small particles. We find that the isostatic packings are positionally and compositionally disordered, whereas bond-orientational and compositional order increase with contact number for hyperstatic packings. In addition, we calculate the static shear modulus and normal mode frequencies of the static packings to understand the extent to which the mechanical properties of amorphous, isostatic packings are different from partially ordered packings. We find that the mechanical properties of the packings change continuously as the contact number increases from isostatic to hyperstatic.

Keywords

Cite

@article{arxiv.1007.2162,
  title  = {Tuning Jammed Frictionless Disk Packings from Isostatic to Hyperstatic},
  author = {Carl F. Schreck and Corey S. O'Hern and Leonardo E. Silbert},
  journal= {arXiv preprint arXiv:1007.2162},
  year   = {2011}
}

Comments

11 pages, 15 figures

R2 v1 2026-06-21T15:47:39.382Z