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Improved Methods for 3D Printing Magnetostrictive Composites
William Neave and Chase ranicke Dr. chiu law (faculty advisor) CEAS-Electrical Engineering
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Introduction The goal was to improve 3D printing filament quality and magnetostrictive response from previous methods. A magnetostrictive alloy Terfenol-D was incorporated into the acrylonitrile butadiene styrene (ABS) thermoplastic matrix to enhance mechanical properties of the resulting filament. By fabricating a mixture of ABS and Terfenol-D particles, the resulting filament responds to magnetic flux by straining.
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Methods µm sized particles of Terfenol-D were mixed with particles of ABS plastic by volume fraction of 15% Terfenol-D and 85% ABS. Resulting mixture of particles was fabricated for 3D printer utilization by feeding mixture through a filament extruder (Figure 3). Constant tension was applied to end of filament to achieve a consistent diameter of resulting filament. Extrusion temperature of 185°C was used. Test blocks (Figure 5) were created with a 3D printer, then a strain gauge was added. Three blocks were printed each with a different layer orientation with respect to the applied magnetic field: 0°: along applied magnetic field 90°: orthogonal to applied magnetic field Each layer orthogonal to the previous The blocks underwent an electromagnetic test (Figure 6) to record the strain response to the magnetic flux applied. Figure 1: ABS Powder and Terfenol-D Mixture Figure 2: Filament Extruder
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Figure 3 (Left): Filament Leaving Extruder
Figure 4 (Right): 3D Printer Printing Testing Sample
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Figure 5 (Left): Test Block with Strain Gauge
Figure 6 (Right): Electromagnet
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Results Figure 7: Sample Response for Orthogonally Printed Layers
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Figure 8: Sample Response for Layers Printed at 0°
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Figure 9: Sample Response for Layers Printed at 90°
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Layers that were printed orthogonally showed largest response to the magnetic flux.
Layers printed at 90° showed lowest response to magnetic flux Smaller Terfenol-D particles exhibited a lower response to magnetic flux Mixing Terfenol-D particles with ABS powder was a faster method for creating filament and printed a higher quality sample Figure 10: Results Obtained by Yermakov Running Same Test
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Conclusions The current 3D printing filament composite method yielded similar results when the layers were orthogonally printed. When printed at 0°or 90° there is hysteresis that needs to be further investigated. Mechanical properties of improved method will be tested in future for comparison.
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Literature Cited Engdahl, G. (2000). Handbook of Giant Magnetostrictive Materials. San Diego, CA: Academic Press Yermakov, Aleksey. “Magnetostrictive Smart Composite for Fused Deposition 3D Printing.” 28 July 2016.
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Acknowledgments UW-Milwaukee Undergraduate Research Office
Dr. Chiu Law Daniel Brandt Aleksey Yermakov Andrew Thompson
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For Further Information
Please access the Giant Handbook for Magnetostrictive Material. Additional data will be provided during the presentation.
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Questions?
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