Open AccessHow a Colloidal Paste Flows—Scaling Behaviors in Dispersions of Aggregated Particles under Mechanical Stress—
Author(s) -
Robert Botet,
B. Cabane,
Michaël Clifton,
Martine Meireles,
Ryohei Seto,
Michio Tokuyama,
Irwin Oppenheim,
Hideya Nishiyama
Publication year - 2008
Publication title -
aip conference proceedings
Language(s) - English
Resource type - Conference proceedings
SCImago Journal Rank - 0.177
H-Index - 75
eISSN - 1551-7616
pISSN - 0094-243X
DOI - 10.1063/1.2897806
Subject(s) - rheology , scaling , deformation (meteorology) , statistical physics , dissipation , materials science , granular material , stress (linguistics) , particle (ecology) , mechanics , simple (philosophy) , scale (ratio) , classical mechanics , physics , mathematics , composite material , thermodynamics , geometry , geology , linguistics , philosophy , quantum mechanics , epistemology , oceanography
We have developed a novel computational scheme that allows direct numerical simulation of the mechanical\udbehavior of sticky granular matter under stress. We present here the general method, with particular emphasis on the\udparticle features at the nanometric scale. It is demonstrated that, although sticky granular material is quite complex and is a good example of a challenging computational problem (it is a dynamical problem, with irreversibility, self-organization\udand dissipation), its main features may be reproduced on the basis of rather simple numerical model, and a small number of physical parameters. This allows precise analysis of the possible deformation processes in soft materials submitted to mechanical stress. This results in direct relationship between the macroscopic rheology of these pastes and local interactions\udbetween the particles
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