In situ investigation of the rheological and dielectric properties of a cross-linking carbon nanotube-thermosetting epoxy. Academic Article

abstract

• Radio-frequency (RF) heating of thermosetting epoxies is an agile method to decouple the extrudability of epoxy resins from their buildability for additive manufacturing. Through this method, the resin is extruded in the liquid state at the early stages of curing. Then, an RF applicator induces a rapid and uniform increase in temperature of the resin, accelerating the solidification of the printed feature. Understanding the evolution of the resin's RF heating response as it cures is therefore critical in meeting the demands of additive manufacturing. In this work, we show that the high-frequency dielectric loss, determined using in situ rheo-dielectric measurements, of both neat and carbon nanotube (CNT) filled resins is correlated to the heating response at different temperatures throughout curing. Furthermore, we show that the presence of CNTs within the resin augments the heating response and that their dispersion quality is critical to achieving rapid heating rates during the cure.

authors

• Green, Micah

published proceedings

• Soft Matter

author list (cited authors)

• Ramos, P. Z., Sarmah, A., Green, M. J., & Richards, J. J.

complete list of authors

• Ramos, Paolo Z||Sarmah, Anubhav||Green, Micah J||Richards, Jeffrey J

publication date

• August 2023

publisher

• Royal Society of Chemistry (RSC)  Publisher

published in

• SOFT MATTER  Journal

keywords

• 40 Engineering
• 4014 Manufacturing Engineering

PubMed Central ID

• 37548747

Digital Object Identifier (DOI)

• 10.1039/d3sm00622k

start page

• 6168

end page

• 6175

volume

• 19

issue

• 32

URL

• http://dx.doi.org/10.1039/d3sm00622k