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Bibliographic Details
Main Authors: Stolbov, O. V., Stepanov, G. V., Raikher, Yu. L.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.17580
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author Stolbov, O. V.
Stepanov, G. V.
Raikher, Yu. L.
author_facet Stolbov, O. V.
Stepanov, G. V.
Raikher, Yu. L.
contents The mechanical response of a cantilever made of a magnetoactive elastomer (MAE) that is positioned on a solid plane surface and is subjected to a uniform magnetic field is studied. The MAE is of the magnetically soft type, i.e., its filler particles become magnetized only in the presence of external field. Test observations with the applied field normal to the plane reveal two possible perturbed configurations of the cantilever: either its free end just bends upward or the cantilever folds into an arc, so that its free end does not detach from the supporting plane. The tests evidence that under cyclic variation of the field both deformation modes exhibit quite a wide bistability region, i.e., a magnetomechanical hysteresis takes place. Theoretical analysis shows that the cantilever bending scenario is indeed similar to that of the first-order transition. However, unlike the customary case, hereby the initial state never ceases to exist and remains stable against infinitesimal perturbations under arbitrary strong fields. Although this conclusion is valid only for an ideal situation, its nontrivial consequence is that the field value under which the transition to the bent state occurs is, in fact, unpredictable. The discovered effect is essentially different from the previously investigated behaviour of MAE cantilevers under an in-plane field; there the transition is of the second-order kind and is completely reversible. Finally, if to consider a horizontal MAE cantilever as an element of an assembly of magnetic cilia, it turns out that it behaves in the way opposite to that of conventional systems where in the initial state the MAE cilia stand normally to the supporting surface.
format Preprint
id arxiv_https___arxiv_org_abs_2501_17580
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Field-induced upward bending of a magnetoelastomer cantilever residing on a horizontal plane: an unconventional cilium
Stolbov, O. V.
Stepanov, G. V.
Raikher, Yu. L.
Soft Condensed Matter
78A30, 74B05, 74K10
The mechanical response of a cantilever made of a magnetoactive elastomer (MAE) that is positioned on a solid plane surface and is subjected to a uniform magnetic field is studied. The MAE is of the magnetically soft type, i.e., its filler particles become magnetized only in the presence of external field. Test observations with the applied field normal to the plane reveal two possible perturbed configurations of the cantilever: either its free end just bends upward or the cantilever folds into an arc, so that its free end does not detach from the supporting plane. The tests evidence that under cyclic variation of the field both deformation modes exhibit quite a wide bistability region, i.e., a magnetomechanical hysteresis takes place. Theoretical analysis shows that the cantilever bending scenario is indeed similar to that of the first-order transition. However, unlike the customary case, hereby the initial state never ceases to exist and remains stable against infinitesimal perturbations under arbitrary strong fields. Although this conclusion is valid only for an ideal situation, its nontrivial consequence is that the field value under which the transition to the bent state occurs is, in fact, unpredictable. The discovered effect is essentially different from the previously investigated behaviour of MAE cantilevers under an in-plane field; there the transition is of the second-order kind and is completely reversible. Finally, if to consider a horizontal MAE cantilever as an element of an assembly of magnetic cilia, it turns out that it behaves in the way opposite to that of conventional systems where in the initial state the MAE cilia stand normally to the supporting surface.
title Field-induced upward bending of a magnetoelastomer cantilever residing on a horizontal plane: an unconventional cilium
topic Soft Condensed Matter
78A30, 74B05, 74K10
url https://arxiv.org/abs/2501.17580