Additive manufacturing technology (AMT) is popularly known as 3-dimensional (3D) printing
has emerged as a reliable, efficient, and cost-effective method for the production of complex …

Antenna is one of the key components onboard small satellites as its design determines the
performance of all the wireless systems including telemetry, tracking and control, high-speed …

The research objective of this work is to enhance the perception of, sensing in, and control of
smart manufacturing systems (SMS) by leveraging active sensor systems within smart …

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 …

Metal additive manufacturing in space is a cutting-edge technology that is designed to meet
the needs of space exploration and space station construction. This technology is capable of …

This paper evaluates different metal deposition approaches for a two-staged additive
manufacturing (AM) process for 3-D horn antennas, divided into the deposition of plastic and …

New durable elastomeric materials are commercially available for 3D printing, enabling a
new class of consumer wearable applications. The mechanical response of soft 3D printed …

Traditional high performance electronic substrates are currently fabricated with molds and
screens by stacking punched green ceramic tapes and selectively screen printing electrical …

This work describes the design, fabrication, and testing of an Archimedean spiral or spiral
antenna using polymer extrusion 3D printing of polycarbonate base material. The spiral …

In this paper we describe a method for creating flexible composite filaments with dielectric
constants below 2.0 over a wide frequency band (ie 18–40 GHz). We demonstrate that a low …