Antenna design using modern additive manufacturing technology: A review
Three-dimensional (3D) printing technology is an area of research that has received great
attention in the last decade and it is pointed out by many as the future of manufacturing. 3D …
attention in the last decade and it is pointed out by many as the future of manufacturing. 3D …
3D printing electronic components and circuits with conductive thermoplastic filament
This work examines the use of dual-material fused filament fabrication for 3D printing
electronic components and circuits with conductive thermoplastic filaments. The resistivity of …
electronic components and circuits with conductive thermoplastic filaments. The resistivity of …
Multi-functional polyamide 12 (PA12)/multiwall carbon nanotube 3D printed nanocomposites with enhanced mechanical and electrical properties
Inducing electrical properties in thermoplastic materials and enhancing their mechanical
properties with the addition of nanofiller in Fused Filament Fabrication (FFF) is the main …
properties with the addition of nanofiller in Fused Filament Fabrication (FFF) is the main …
Parametric study of 3D additive printing parameters using conductive filaments on microwave topologies
F Pizarro, R Salazar, E Rajo-Iglesias… - IEEE …, 2019 - ieeexplore.ieee.org
This paper presents a parametric study of classical additive 3D-printing settings for use on
conductive filaments in applications for high-frequency topologies. First, a wideband …
conductive filaments in applications for high-frequency topologies. First, a wideband …
Parametric study of a fully 3D-printed dielectric resonator antenna loaded with a metallic cap
This article presents a parametric study of a fully 3D-printed hemispherical dielectric
resonator antenna (DRA) using low loss dielectric filament and high-conductive filaments …
resonator antenna (DRA) using low loss dielectric filament and high-conductive filaments …
The use of 3D printing technology for manufacturing metal antennas in the 5G/IoT context
With the rise of 5G, Internet of Things (IoT), and networks operating in the mmWave
frequencies, a huge growth of connected sensors will be a reality, and high gain antennas …
frequencies, a huge growth of connected sensors will be a reality, and high gain antennas …
Assessment of 3D-printed waveguides using conductive filaments and a chloroform-based smoothing process
This article presents the assessment of four different 3D-printed rectangular waveguide
structures using highly conductive filaments, operating from 8 GHz to 40 GHz. The …
structures using highly conductive filaments, operating from 8 GHz to 40 GHz. The …
3D printed anode electrodes for microbial electrolysis cells
Microbial electrolysis cells are used to produce high purity hydrogen from organic wastes.
Electrodes are one of the most important components of microbial electrolysis cells because …
Electrodes are one of the most important components of microbial electrolysis cells because …
Conductive Electrifi and Nonconductive NinjaFlex Filaments based Flexible Microstrip Antenna for Changing Conformal Surface Applications
As the usage of wireless technology grows, it demands more complex architectures and
conformal geometries, making the manufacturing of radio frequency (RF) systems …
conformal geometries, making the manufacturing of radio frequency (RF) systems …
Evaluating the effectiveness of planar and waveguide 3D-printed antennas manufactured using dielectric and conductive filaments
3D printing is a technology suitable for creating electronics and electromagnetic devices.
However, the manufacturing of both dielectric and conductive parts in the same process still …
However, the manufacturing of both dielectric and conductive parts in the same process still …