Litcius/Paper detail

A Kirchhoff-like theory for hard magnetic rods under geometrically nonlinear deformation in three dimensions

Tomohiko G. Sano, Matteo Pezzulla, Pedro M. Reis

2021Journal of the Mechanics and Physics of Solids77 citationsDOIOpen Access PDF

Abstract

Magneto-rheological elastomers (MREs) are functional materials that can be actuated by applying an external magnetic field. MREs comprise a composite of hard magnetic particles dispersed into a nonmagnetic elastomeric (soft) matrix. Hard MREs have been receiving particular attention because the programmed magnetization remains unchanged upon actuation. Motivated by a new realm of applications, there have been significant theoretical developments in the continuum (three-dimensional) description of hard MREs. In this paper, we derive an effective theory for MRE rods (slender, mono-dimensional structures) under geometrically nonlinear deformation in three dimensions. Our theory is based on reducing the three-dimensional magneto-elastic energy functional for the hard MREs into an one-dimensional Kirchhoff-like description (centerline-based). Restricting the theory to two dimensions, we reproduce previous works on planar deformations. For further validation in the general case of three-dimensional deformation, we perform precision experiments with both naturally straight and curved rods under either constant or constant-gradient magnetic fields. Our theoretical predictions are in excellent agreement with both discrete simulations and precision-model experiments. Finally, we discuss some limitations of our framework, as highlighted by the experiments, where long-range dipole–dipole interactions, which are neglected in the theory, can play a role.

Topics & Concepts

Deformation (meteorology)Nonlinear systemMagnetic fieldRodMagnetElastomerClassical mechanicsMaterials scienceMechanicsPhysicsComposite materialMedicineQuantum mechanicsAlternative medicinePathologyVibration Control and Rheological FluidsAdvanced Materials and MechanicsMicro and Nano Robotics