Relationship between Crystallization Behavior and Mechanical Performance of F-III Fibers under Different Tensions in Supercritical Carbon Dioxide

Abstract: In this article, the supercritical carbon dioxide (Sc-CO2) was used as a medium for hot-drawing of F-III fibers. The conditions of hot-drawing were selected to be the temperature of 250 °C, pressure of 14 MPa, time of 60 min, and different tensions, which were 0, 3, 4.5, 6, and 7.5 g·d-1, respectively. All samples including the untreated and treated F-III fibers were characterized by a mechanical tester and X-ray diffraction (XRD). Results showed that the Sc-CO2 and applied tension could both promote the cryst… Show more

“…[ 13 ] Therefore, many efforts have been devoted to improving the mechanical properties of PBIA fibers. Besides the optimization on polymerization and spinning processes for increasing the crystallinity and orientation degree, [ 13,14 ] enhancing lateral interactions between polymer chains are approachable methods by introducing inter‐chain hydrogen or covalent bonding. [ 15 ] However, additionally introducing hydrogen bonding interaction is limited since pristine PIBA fibers have been equipped with ample hydrogen bonds between polymer chains.…”

Holey Reduced Graphene Oxide Scaffolded Heterocyclic Aramid Fibers with Enhanced Mechanical Performance

“…[ 13 ] Therefore, many efforts have been devoted to improving the mechanical properties of PBIA fibers. Besides the optimization on polymerization and spinning processes for increasing the crystallinity and orientation degree, [ 13,14 ] enhancing lateral interactions between polymer chains are approachable methods by introducing inter‐chain hydrogen or covalent bonding. [ 15 ] However, additionally introducing hydrogen bonding interaction is limited since pristine PIBA fibers have been equipped with ample hydrogen bonds between polymer chains.…”

Holey Reduced Graphene Oxide Scaffolded Heterocyclic Aramid Fibers with Enhanced Mechanical Performance