Electromagnetic Characterization of 3D Printed Antennas Employing Conductive Filament

机译：使用导电丝的3D打印天线的电磁特性

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This work presents the need to accurately define EM characterization of novel materials like the 3D conductive filament. Although these construction techniques and materials are currently used by the industry, the influence of the manufacturing process is still not properly characterized. In this paper, different monopoles are assembled modifying the 3D printing structure when a conductive filament is employed to fabricate the radiating element. Measurements of the S11 parameter are combined with electromagnetic simulations to determine the different performances of the built antennas. The results highlight that the definition of the printing parameters has a strong influence on the conductivity of the resulting 3D printed monopoles, producing remarkable variations at the antenna performance. Modifying the results from monopoles not suitable to propagate to performances that can produce proper electromagnetic fields.

机译：这项工作介绍了需要准确地定义像3D导电丝等新型材料的EM表征。虽然这些施工技术和材料目前被行业使用，但制造过程的影响仍未正确地表征。在本文中，当采用导电灯丝制造辐射元件时，将不同的垄断组装改变3D打印结构。测量的s 11 参数与电磁模拟结合，以确定内置天线的不同性能。结果突出显示打印参数的定义对所产生的3D印刷垄断的电导率产生强烈影响，在天线性能下产生显着变化。修改垄断的结果不适合传播到可以产生适当电磁场的性能。

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《International Symposium on Electromagnetic Compatibility》|2020年|1-6|共6页
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Marc Pous; Marco Azpúrua; Marcos Quílez; Marc Mateu; Mireya Fernández-Chimeno; Ferran Silva;
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antennas; 3D printing; conductive filament; EM material characterization; measurement; EM simulation;

机译：天线; 3D打印;导电丝; EM材料表征;测量; EM模拟;

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2. In-Situ Print Characterization and Defect Monitoring of 3D Printing via Conductive Filament and Ohm’s Law [J] . Helen Parker, Sean Psulkowski, Phong Tran, Procedia Manufacturing . 2021,第a期

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3. One-step 3D-printing process for microwave patch antenna via conductive and dielectric filaments [J] . Hasni Umar, Green Ryan, Filippas Afroditi V., Microwave and optical technology letters . 2019,第3期

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4. Characterization of 3D-printed capacitors created by fused filament fabrication using electrically-conductive filament [C] . Nebojsa I. Jaksic, Pratik D. Desai International Conference on Flexible Automation and Intelligent Manufacturing . 2020

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6. 3D Printed Long-Range Cavity Structure UHF RFID Tag Antenna with Painting Conductive Ink on Convex Surface [O] . Franck Kimetya Byondi, Youchung Chung 2021

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7. 3D-Printed Sievenpiper Metasurface Using Conductive Filaments [O] . Pablo Stuardo, Francisco Pizarro, Eva Rajo-Iglesias 2020

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Electromagnetic Characterization of 3D Printed Antennas Employing Conductive Filament

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