Abstract
We report on the pilot scale synthesis and melt spinning of poly(ethylene furanoate) (PEF), a promising bio-based fiber polymer that can heave mechanical properties in the range of commercial poly(ethylene terephthalate) (PET) fibers. Catalyst optimization and solid state polycondensation (SSP) allowed for intrinsic viscosities of PEF of up to 0.85 dL·g−1. Melt-spun multifilament yarns reached a tensile strength of up to 65 cN·tex−1 with an elongation of 6% and a modulus of 1370 cN·tex−1. The crystallization behavior of PEF was investigated by differential scanning calorimetry (DSC) and XRD after each process step, i.e., after polymerization, SSP, melt spinning, drawing, and recycling. After SSP, the previously amorphous polymer showed a crystallinity of 47%, which was in accordance with literature. The corresponding XRD diffractograms showed signals attributable to α-PEF. Additional, clearly assignable signals at 2θ > 30° are discussed. A completely amorphous structure was observed by XRD for as-spun yarns, while a crystalline phase was detected on drawn yarns; however, it was less pronounced than for the granules and independent of the winding speed.
Highlights
Published: 23 February 2021Sustainability is a fundamental challenge for the polymer industry and, especially, for the textile industry
poly(ethylene furanoate) (PEF) was synthesized on a multi-kg-scale via the FDCA route
It was shown that both the FDME and the FDCA routes are capable of producing PEFs with high intrinsic viscosities, suitable Carboxyl End Group (CEG) values for further processing by solid state polycondensation (SSP), and molar masses and molar mass distributions for the successful melt spinning into technical textiles
Summary
Published: 23 February 2021Sustainability is a fundamental challenge for the polymer industry and, especially, for the textile industry.
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