Bulletin of the American Physical Society
APS March Meeting 2022
Volume 67, Number 3
Monday–Friday, March 14–18, 2022; Chicago
Session Y27: Granular Porous Media and Multiphase Flows II
8:00 AM–10:00 AM,
Friday, March 18, 2022
Room: McCormick Place W-187C
Sponsoring
Unit:
DFD
Chair: Larry Galoway, University of Pennsylvania
Abstract: Y27.00004 : Strain Driven Ordering of Nanoparticles in a Dense Silica Colloid*
8:36 AM–8:48 AM
Presenter:
Xiao-Min Lin
(Argonne National Laboratory)
Authors:
Xiao-Min Lin
(Argonne National Laboratory)
Hongrui He
(Materials Science Division and Center for Molecular Engineering, Argonne National Laboratory)
Qiming He
(Materials Science Division and Center for Molecular Engineering, Argonne National Laboratory)
Jelena Dinic
(Materials Science Division and Center for Molecular Engineering)
Wei Chen
(Materials Science Division and Center for Molecular Engineering)
Zhang Jiang
(Advanced Photon Source, Argonne National Laboratory)
Suresh Narayanan
(Advanced Photon Source, Argonne National Laboratory)
In a dense monodisperse hard sphere colloid, ordering and disordering of particles can occur driven by an oscillatory shear of the system. This transition is purely controlled by strain amplitude, different from the normal shear thickening behavior that occurs at a much higher critical shear stress. Using in situ Rheo-SAXS setup, we measured simultaneously the rheological response and the structural evolution of a silica colloid under different shear strain amplitudes. We reveal that, under different strains, there is a different time-dependent ordering kinetics towards a dynamic equilibrium with different degree of ordering. When the strain amplitude reaches a critical value that starts to induce disordering in the system, the pathway towards the dynamic equilibrium can also become highly non-monotonic. Within each oscillatory cycle, there is a strong correlation of ordering with different phase of the oscillation, indicating reversing the shear direction could disrupt some ordered region locally.
*This work was performed at the sector 8-ID-I at the Advanced Photon Source and the Center of Nanoscale Materials, U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences User Facilities under Contract No. #DEAC02-06CH11357.
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