Fracture and relaxation in dense cornstarch suspensions
Fracture and relaxation in dense cornstarch suspensions
Dense suspensions exhibit the remarkable ability to switch dynamically and reversibly from a fluid-like to a solid-like, shear-jammed (SJ) state. Here, we show how this transition has important implications for the propensity for forming fractures. We inject air into bulk dense cornstarch suspensions and visualize the air invasion into the opaque material using time-resolved X-ray radiography. For suspensions with cornstarch mass fractions high enough to exhibit discontinuous shear thickening and shear jamming, we show that air injection leads to fractures in the material. For high mass fractions, these fractures grow quasistatically as rough cavities with fractured interfaces. For lower mass fractions, remarkably, the fractures can relax to smooth bubbles that then rise under buoyancy. We show that the onset of the relaxation occurs as the shear rate induced by the air cavity growth decreases below the critical shear rate denoting the onset of discontinuous shear thickening, which reveals a structural signature of the SJ state.
fracture, jamming, relaxation, shear thickening
Lilin, Paul
1b3473e0-effa-49da-9c7d-4c486b455507
Elkhoury, Jean E.
96244b4b-597c-4373-9502-245524c8896b
Peters, Ivo R.
222d846e-e620-4017-84cb-099b14ff2d75
Bischofberger, Irmgard
45bb4a2f-c375-40e5-98ae-2cf5b4c7e685
12 January 2024
Lilin, Paul
1b3473e0-effa-49da-9c7d-4c486b455507
Elkhoury, Jean E.
96244b4b-597c-4373-9502-245524c8896b
Peters, Ivo R.
222d846e-e620-4017-84cb-099b14ff2d75
Bischofberger, Irmgard
45bb4a2f-c375-40e5-98ae-2cf5b4c7e685
Lilin, Paul, Elkhoury, Jean E., Peters, Ivo R. and Bischofberger, Irmgard
(2024)
Fracture and relaxation in dense cornstarch suspensions.
PNAS Nexus, 3 (1), [pgad451].
(doi:10.1093/pnasnexus/pgad451).
Abstract
Dense suspensions exhibit the remarkable ability to switch dynamically and reversibly from a fluid-like to a solid-like, shear-jammed (SJ) state. Here, we show how this transition has important implications for the propensity for forming fractures. We inject air into bulk dense cornstarch suspensions and visualize the air invasion into the opaque material using time-resolved X-ray radiography. For suspensions with cornstarch mass fractions high enough to exhibit discontinuous shear thickening and shear jamming, we show that air injection leads to fractures in the material. For high mass fractions, these fractures grow quasistatically as rough cavities with fractured interfaces. For lower mass fractions, remarkably, the fractures can relax to smooth bubbles that then rise under buoyancy. We show that the onset of the relaxation occurs as the shear rate induced by the air cavity growth decreases below the critical shear rate denoting the onset of discontinuous shear thickening, which reveals a structural signature of the SJ state.
Text
pgad451
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Accepted/In Press date: 11 December 2023
e-pub ahead of print date: 22 December 2023
Published date: 12 January 2024
Keywords:
fracture, jamming, relaxation, shear thickening
Identifiers
Local EPrints ID: 492824
URI: http://eprints.soton.ac.uk/id/eprint/492824
ISSN: 2752-6542
PURE UUID: ba8cbdce-ad20-47ce-a0c6-df97d4604b35
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Date deposited: 15 Aug 2024 16:47
Last modified: 16 Aug 2024 01:48
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Contributors
Author:
Paul Lilin
Author:
Jean E. Elkhoury
Author:
Irmgard Bischofberger
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