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 …
Electrical resistivity of additively manufactured AlSi10Mg for use in electric motors
C Silbernagel, I Ashcroft, P Dickens, M Galea - Additive Manufacturing, 2018 - Elsevier
Additive manufacturing (AM) opens up a design freedom beyond the limits of traditional
manufacturing techniques. Electrical windings created through AM could lead to more …
manufacturing techniques. Electrical windings created through AM could lead to more …
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 …
Digital manufacturing of pathologically-complex 3D printed antennas
In the last decade, the proliferation of new 3D printing technologies has enabled the
fabrication of complex geometries in manifold materials for novel applications. One …
fabrication of complex geometries in manifold materials for novel applications. One …
Electromagnetic characterisation of conductive 3D‐Printable filaments for designing fully 3D‐Printed antennas
R Colella, FP Chietera, A Michel… - IET Microwaves …, 2022 - Wiley Online Library
Abstract Additive manufacturing (AM) 3D‐printing technology is increasingly bringing
benefits even in electromagnetics, with interesting prospects of application. Apart from the …
benefits even in electromagnetics, with interesting prospects of application. Apart from the …
Compact 3-D-printed 4× 4 Butler matrix based on low-cost and curing-free additive manufacturing
V Palazzi, A Cicioni, F Alimenti… - IEEE Microwave and …, 2020 - ieeexplore.ieee.org
This letter presents a 4× 4 Butler matrix realized using stereolithography 3-D printing
technology and liquid metal filling. The matrix is in coaxial technology and relies on circular …
technology and liquid metal filling. The matrix is in coaxial technology and relies on circular …
3D-printed sievenpiper metasurface using conductive filaments
This article presents the design, construction and measurement of different 3D-printed
Sievenpiper metasurfaces. The structures were printed using a conductive filament …
Sievenpiper metasurfaces. The structures were printed using a conductive filament …
3-D-printing-based selective-ink-deposition technique enabling complex antenna and RF structures for 5G applications up to 6 GHz
This paper introduces a novel additivemanufacturing technique to obtain high-resolution
selective-ink-deposition on complex 3-D objects, packages, and modules for 5G …
selective-ink-deposition on complex 3-D objects, packages, and modules for 5G …
The principles of" smart" encapsulation: using additive printing technology for the realization of intelligent application-specific packages for IoT, 5G, and automotive …
This paper outlines the fundamental principles and processing characteristics of realizing
application-specific" smart"'microelectronic packages utilizing fully-additive inkjet and 3D …
application-specific" smart"'microelectronic packages utilizing fully-additive inkjet and 3D …
A Computational Geometry Generation Method for Creating 3D Printed Composites and Porous Structures
P Siegkas - Materials, 2021 - mdpi.com
A computational method for generating porous materials and composite structures was
developed and implemented. The method is based on using 3D Voronoi cells to partition a …
developed and implemented. The method is based on using 3D Voronoi cells to partition a …