Thomas M. Calascione scite author profile

Several methods have been used to optimize performance of magnetic elastomers by controlling the microstructure, such as magnetic annealing. Another way to introduce anisotropy is Fused Deposition Modeling (FDM), which has been shown to manipulate the magnetic anisotropy of rigid printed parts. However, the use of flexible composite materials has not yet been explored due to additional processing challenges. The primary goal of this study is to demonstrate tunable anisotropy of these materials via 3D printed structures without post-processing as a viable means to tune the performance of magnetic elastomer materials. Here, FDM structures were printed with thermoplastic polyurethane (TPU) polymer and either iron, carbonyl iron, or magnetite particulate. In order to determine the relative effect of different parameters on the magnetic properties, a series of samples were printed combining each material type with different aspect ratios, infill percentages, and infill orientations. A Vibrating Sample Magnetometer (VSM) was used to obtain magnetic hysteresis loops in order to compare the magnetic susceptibility between samples. Results demonstrated that FDM provides a method of achieving the directional signature of magnetic annealing without requiring any post-processing; instead, this manifests through the anisotropy of the part’s internal structure. As such, this concept is referred to as infill magnetic annealing (IMA). These variables were found to form a continuum of tunable magnetic responses. Additionally, the chosen particulate transfers its magnetic signature to the composite material. Overall, the highly customizable and nuanced characteristics of 3D-printed magnetic elastomer structures will allow for its application in a broad range of emerging magneto-mechanical applications such as magnetic actuation and soft robotics.

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Magnetic annealing of extruded thermoplastic magnetic elastomers for 3D-Printing via FDM

Fischer

Robinson

Lee

et al. 2022

Journal of Magnetism and Magnetic Materials

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Thermoplastic magnetic elastomer for fused filament fabrication

Morgenstern¹,

Calascione²,

Fischer³

et al. 2019

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Effects of infill orientation and percentage on the magnetoactive properties of 3D printed magnetic elastomer structures

Ennis¹,

Thatcher²,

Calascione³

et al. 2023

Additive Manufacturing Letters

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