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Additive Manufacturing of PLA-Based Microwave Circuit-Analog Absorbers

Theodore J. Prince, Elliot J. Riley, Simon W. Miller

2021IEEE Transactions on Electromagnetic Compatibility23 citationsDOI

Abstract

Fused filament fabrication (FFF) was used to additively manufacture (3-D print) two-prototype circuit-analog (CA) absorbers. The CA absorbers consist of a lossy frequency selective surface (FSS), substrate, and ground plane. In this article, the FSS and substrate were manufactured using two different FFF materials to make a cohesive structure manufactured during a single printing procedure. To design the CA absorbers, the complex permittivity of FFF printed polylactic acid (PLA), bronze-, brass-, copper-, and iron-powder infused PLAs, and a graphite-PLA composite was measured using a free-space materials measurement system. Out of the candidate materials measured, graphite PLA and standalone PLA were selected as the FSSs and substrates, respectively. Complex permittivity data from the selected materials were input to Computer Simulation Technology Microwave Studio so that a genetic algorithm could optimize absorber dimensions. Reflectivity of the printed absorbers was measured using a free-space measurement setup. Measured reflectivity data were compared to that from simulations. A simulated-geometric tolerance study corroborated differences noted between ideal models and measured data. The results showed that FFF techniques can be used for CA-absorber designs and that 3-D printing settings can ultimately affect absorber performance.

Topics & Concepts

Materials sciencePermittivityFused filament fabricationSubstrate (aquarium)MicrowaveRelative permittivityFused deposition modelingBrassGround planeComposite material3D printingElectronic engineeringOptoelectronicsDielectricElectrical engineeringCopperComputer scienceAntenna (radio)EngineeringMetallurgyGeologyTelecommunicationsOceanographyAdvanced Antenna and Metasurface TechnologiesElectromagnetic wave absorption materialsAntenna Design and Analysis