Getting jammed in all directions: dynamic shear jamming around a cylinder towed through a dense suspension
Getting jammed in all directions: dynamic shear jamming around a cylinder towed through a dense suspension
Experimental results of towing a cylinder through a dense suspension of cornstarch and sucrose-water are presented. Focus is placed on the jamming fronts that exist in such systems. The literature has concentrated on the propagation of the jammed region under pushing, pulling, or shearing conditions independently. How the different fronts interact and if the fronts are symmetric when generated simultaneously has remained unexplored. Investigating this is our main goal. With the current setup, we are able to view a continuous, quasi-two-dimensional field around the cylinder. As such, a way of generating jamming fronts is presented whereby pushing, pulling, and shearing can be examined simultaneously. In agreement with previous studies, the front propagates roughly twice as fast in the longitudinal direction compared to the transverse direction, which is attributed to a single underlying onset strain, regardless of orientation from the cylinder. Although the jamming front shows nearly perfect transverse symmetry, there is clear longitudinal asymmetry. This is evident in the velocity and strain fields, and is also detectable in the front propagation velocity and onset strain.
Rømcke, Olav
d982ba2c-9879-4896-b54f-f54a539a46cc
Peters, Ivo R
222d846e-e620-4017-84cb-099b14ff2d75
Hearst, Jason R.
907294f5-fbed-4c83-93ac-9af35ec6fcfc
7 June 2021
Rømcke, Olav
d982ba2c-9879-4896-b54f-f54a539a46cc
Peters, Ivo R
222d846e-e620-4017-84cb-099b14ff2d75
Hearst, Jason R.
907294f5-fbed-4c83-93ac-9af35ec6fcfc
Rømcke, Olav, Peters, Ivo R and Hearst, Jason R.
(2021)
Getting jammed in all directions: dynamic shear jamming around a cylinder towed through a dense suspension.
Physical Review Fluids, 6 (6), [063301].
(doi:10.1103/PhysRevFluids.6.063301).
Abstract
Experimental results of towing a cylinder through a dense suspension of cornstarch and sucrose-water are presented. Focus is placed on the jamming fronts that exist in such systems. The literature has concentrated on the propagation of the jammed region under pushing, pulling, or shearing conditions independently. How the different fronts interact and if the fronts are symmetric when generated simultaneously has remained unexplored. Investigating this is our main goal. With the current setup, we are able to view a continuous, quasi-two-dimensional field around the cylinder. As such, a way of generating jamming fronts is presented whereby pushing, pulling, and shearing can be examined simultaneously. In agreement with previous studies, the front propagates roughly twice as fast in the longitudinal direction compared to the transverse direction, which is attributed to a single underlying onset strain, regardless of orientation from the cylinder. Although the jamming front shows nearly perfect transverse symmetry, there is clear longitudinal asymmetry. This is evident in the velocity and strain fields, and is also detectable in the front propagation velocity and onset strain.
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Author's accepted manuscript
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Accepted/In Press date: 17 May 2021
Published date: 7 June 2021
Additional Information:
Funding Information:
R.J.H. acknowledges the financial support of the Research Council of Norway (Grant No. 288046). I.R.P. acknowledges financial support from the Royal Society (Grant No. RG160089).
Publisher Copyright:
© 2021 American Physical Society.
Identifiers
Local EPrints ID: 449414
URI: http://eprints.soton.ac.uk/id/eprint/449414
ISSN: 2469-990X
PURE UUID: 97f3950d-95a8-4c0c-9905-f21121183123
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Date deposited: 27 May 2021 16:32
Last modified: 17 Mar 2024 03:39
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Author:
Olav Rømcke
Author:
Jason R. Hearst
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