Wet spinning of silk polymer: II. Effect of drawing on the structural characteristics and properties of filament

Abstract

Regenerated silk fibroin (SF) filaments were prepared by the wet spinning technique. The rheological behavior of the SF dope solution prepared with formic acid was examined and the drawing effect on the structural characteristics and mechanical properties of SF filament was comparatively studied with those of natural silk fiber. SF dope exhibited shear thinning, but, as the dope concentration increased, the effect of shear thinning decreased, an indication that a higher concentration of dope solution will result in good spinnability. Wet-spun SF filaments exhibited a uniform and circular cross-sectional shape and dense morphology under SEM observation. X-ray diffraction (XRD) results revealed that the crystallinity of wet-spun regenerated filaments was hardly affected by the draw ratio, whereas the crystalline and amorphous orientation of regenerated SF filament showed different features depending on the drawing. The crystalline orientation of regenerated filaments increased with an increase of draw ratio and was lower than that of natural silk fiber. On the contrary, the amorphous orientation was constant throughout 1X–5X draw ratios, after an abrupt increase at 1X, and was higher than that of natural silk fiber. These differences in the orientation behaviors are attributed to the different spinning mechanisms involved. The tensile property was strongly dependent on the draw ratio. The breaking strength and elongation of the regenerated filament at 5X draw ratio were 2.2 g/day and 17%, respectively.