Evolution of Triangle Decomposition During Jamming

Mark Kanner; Ning Xu; Corey O'Hern; Mark Shattuck

Evolution of Triangle Decomposition During Jamming

ORAL

Abstract

We use simulations of soft 2D bidisperse disks to determine the properties of jammed packings and investigate the statistical mechanics of these systems. We have created a novel method for the classification of structural subunits of a packing and use the subunits to calculate relevant physical quantities. The classification scheme is based on a 20 type decomposition of the Delaunay triangles extracted from the centers of the particles. The distribution of triangle types evolve as systems are jammed by compression or as they are sheared. We analyze the statistics of the triangle types and identify specific transition events during compression, jamming, and shear.

^*NSF-CBET-0968013

March 21, 2013, 8:48 AM – March 21, 2013, 9:00 AM

Authors

Mark Kanner
- Levich Institute and Physics Department at City College and CUNY Graduate Center
Ning Xu
- University of Science and Technology of China
Corey O'Hern
- Yale University
- Department of of Mechanical Engineering and Materials Science, Yale University
- Department of Mechanical Engineering and Materials Science, Yale University
- Yale University Departments of Mechanical Engineering \& Materials Science and Physics
Mark Shattuck
- Levich Institute and Physics Department at City College and CUNY Graduate Center