Deforming ice with drops

Duco van Buuren; Pallav Kant; Jochem G. Meijer; Christian Diddens; Detlef Lohse

doi:10.48550/arXiv.2402.18947

Deforming ice with drops

Duco van Buuren
, Pallav Kant
, Jochem G. Meijer
, Christian Diddens
, Detlef Lohse

Research output: Working paper › Preprint › Academic

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Abstract

A uniform solidification front undergoes non-trivial deformations when encountering an insoluble dispersed particle in a melt. For solid particles, the overall deformation characteristics are primarily dictated by heat transfer between the particle and the surrounding, remaining unaffected by the rate of approach of the solidification front. In this Letter we show that, conversely, when interacting with a droplet or a bubble, the deformation behavior exhibits entirely different and unexpected behavior. It arises from an interfacial dynamics which is specific to particles with free interfaces, namely thermal Marangoni forces. Our study employs a combination of experiments, theory, and numerical simulations to investigate the interaction between the droplet and the freezing front and unveils its surprising behavior. In particular, we quantitatively understand the dependence of the front deformation ∆ on the front propagation velocity, which, for large front velocities, can even revert from attraction (∆ < 0) to repulsion (∆ > 0).

Original language	English
Publisher	ArXiv.org
Number of pages	5
DOIs	https://doi.org/10.48550/arXiv.2402.18947
Publication status	Published - 1 Mar 2024

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10.48550/arXiv.2402.18947Licence: CC BY

2402.18947v1Final published version, 2.97 MBLicence: CC BY

Deforming Ice with Drops
van Buuren, D., Kant, P., Meijer, J. G., Diddens, C. & Lohse, D., 22 Nov 2024, In: Physical review letters. 133, 21, 214002.
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abstract = "A uniform solidification front undergoes non-trivial deformations when encountering an insoluble dispersed particle in a melt. For solid particles, the overall deformation characteristics are primarily dictated by heat transfer between the particle and the surrounding, remaining unaffected by the rate of approach of the solidification front. In this Letter we show that, conversely, when interacting with a droplet or a bubble, the deformation behavior exhibits entirely different and unexpected behavior. It arises from an interfacial dynamics which is specific to particles with free interfaces, namely thermal Marangoni forces. Our study employs a combination of experiments, theory, and numerical simulations to investigate the interaction between the droplet and the freezing front and unveils its surprising behavior. In particular, we quantitatively understand the dependence of the front deformation ∆ on the front propagation velocity, which, for large front velocities, can even revert from attraction (∆ < 0) to repulsion (∆ > 0). ",

author = "\{van Buuren\}, Duco and Pallav Kant and Meijer, \{Jochem G.\} and Christian Diddens and Detlef Lohse",

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AU - van Buuren, Duco

AU - Kant, Pallav

AU - Meijer, Jochem G.

AU - Diddens, Christian

AU - Lohse, Detlef

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Y1 - 2024/3/1

N2 - A uniform solidification front undergoes non-trivial deformations when encountering an insoluble dispersed particle in a melt. For solid particles, the overall deformation characteristics are primarily dictated by heat transfer between the particle and the surrounding, remaining unaffected by the rate of approach of the solidification front. In this Letter we show that, conversely, when interacting with a droplet or a bubble, the deformation behavior exhibits entirely different and unexpected behavior. It arises from an interfacial dynamics which is specific to particles with free interfaces, namely thermal Marangoni forces. Our study employs a combination of experiments, theory, and numerical simulations to investigate the interaction between the droplet and the freezing front and unveils its surprising behavior. In particular, we quantitatively understand the dependence of the front deformation ∆ on the front propagation velocity, which, for large front velocities, can even revert from attraction (∆ < 0) to repulsion (∆ > 0).

AB - A uniform solidification front undergoes non-trivial deformations when encountering an insoluble dispersed particle in a melt. For solid particles, the overall deformation characteristics are primarily dictated by heat transfer between the particle and the surrounding, remaining unaffected by the rate of approach of the solidification front. In this Letter we show that, conversely, when interacting with a droplet or a bubble, the deformation behavior exhibits entirely different and unexpected behavior. It arises from an interfacial dynamics which is specific to particles with free interfaces, namely thermal Marangoni forces. Our study employs a combination of experiments, theory, and numerical simulations to investigate the interaction between the droplet and the freezing front and unveils its surprising behavior. In particular, we quantitatively understand the dependence of the front deformation ∆ on the front propagation velocity, which, for large front velocities, can even revert from attraction (∆ < 0) to repulsion (∆ > 0).

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DO - 10.48550/arXiv.2402.18947

M3 - Preprint

BT - Deforming ice with drops

PB - ArXiv.org

ER -

Deforming ice with drops

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Deforming Ice with Drops

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