(604h) Centrifugal Force Spinning and Volatile-Entangled Vs Extensibility-Enriched Spinnability of Polymer Solutions
AIChE Annual Meeting
2022
2022 Annual Meeting
Materials Engineering and Sciences Division
Polymer Viscoelasticity: Mechanics, Processing, and Rheology II
Thursday, November 17, 2022 - 2:30pm to 2:45pm
Designing application-ready fibers involves multifaceted challenges related to correlating the formulation properties and processing parameters to the fiber engineering trifecta of spinnability, morphology, and properties. Here, we characterize the influence of macromolecular and solvent properties on the trifecta for poly(ethylene oxide) or PEO fibers produced using a bespoke centrifugal force spinning (CFS) set-up and matched processing parameters. We illustrate the influence of changing solvent on spinnability, morphology, and properties (thermal and mechanical) by varying acetonitrile (AcN) fraction in the spinning dope formulated with PEO dissolved in AcN:H2O mixtures. We contrast the numerical values of measured diameter, tensile strength, elongation-at-break, and crystallinity of centrifugally spun PEO fibers with the published datasets for electrospun fibers using the Berry number (or the overlap parameter) as the ordinate. We compile, analyze, and replot ES and CFS spinning datasets obtained for various solvents, PEO (Mw and c), and processing parameters. Even though distinct forces determine the jet trajectory and fiber formation for ES and CFS, we find centrifugally spun PEO fibers emulate electrospun fiber properties, morphology, and spinnability. We discuss the mechanism underlying volatile-entangled (VE) spinnability, displayed here by PEO solutions in certain AcN:H2O mixtures, in contrast to extensibility-enriched (EE) spinnability of multicomponent formulations, enabled by the addition of an ultrahigh Mw polymer fraction.