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Main Authors: Reinken, Henning, Heiber, Markus, Araki, Takeaki, Menzel, Andreas M.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.04754
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author Reinken, Henning
Heiber, Markus
Araki, Takeaki
Menzel, Andreas M.
author_facet Reinken, Henning
Heiber, Markus
Araki, Takeaki
Menzel, Andreas M.
contents Magnetorheological fluids consist of micrometer-sized magnetic particles in a carrier liquid. Sufficiently strong external magnetic fields lead to the formation of string-like particle aggregates. We demonstrate that hydrodynamic interactions, that is, mutual couplings via induced flows, play a substantial role during the structuring process. They support the formation of slender chains instead of more compact clusters in the absence of mutual hydrodynamic interactions between the particles. This fundamental insight is substantial from an application perspective, due to the enormous technical importance and potential of structured magnetorheological materials.
format Preprint
id arxiv_https___arxiv_org_abs_2602_04754
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Hydrodynamics substantially affects induced structure formation in magnetic fluids
Reinken, Henning
Heiber, Markus
Araki, Takeaki
Menzel, Andreas M.
Soft Condensed Matter
Materials Science
Magnetorheological fluids consist of micrometer-sized magnetic particles in a carrier liquid. Sufficiently strong external magnetic fields lead to the formation of string-like particle aggregates. We demonstrate that hydrodynamic interactions, that is, mutual couplings via induced flows, play a substantial role during the structuring process. They support the formation of slender chains instead of more compact clusters in the absence of mutual hydrodynamic interactions between the particles. This fundamental insight is substantial from an application perspective, due to the enormous technical importance and potential of structured magnetorheological materials.
title Hydrodynamics substantially affects induced structure formation in magnetic fluids
topic Soft Condensed Matter
Materials Science
url https://arxiv.org/abs/2602.04754