Thermal behavior and morphological characteristics of cationic dyeable poly(ethylene terephthalate) (CD‐PET)/metallocene isotactic polypropylene ( m ‐iPP) conjugated fibers

Cationic dyeable poly(ethylene terephthalate) (CD‐PET) and metallocene isotactic polypropylene ( m ‐iPP) polymers were extruded (in the proportions of 75/25, 50/50, 25/75) from two melt twin‐screw extruders to prepare CD‐PET/ m ‐iPP (and m ‐iPP/CD‐PET)‐conjugated fibers of the island‐in‐sea type. This study investigated the thermal behavior and mechanical and morphological characteristics of the conjugated fibers using DSC, TGA, WAXD, melting viscosity rheometer, density indicator, tenacity measurement, and a polarizing microscope. Melting behavior of CD‐PET/ m ‐iPP polyblended polymers exhibited negative‐deviation blends (NDB) and the 50/50 blend showed a minimum value of the melt viscosity. Experimental results of the DSC indicated CD‐PET and m ‐iPP molecules formed a partial miscible system. The tenacity of CD‐PET/ m ‐iPP‐conjugated fibers decreased initially and then increased as the m ‐iPP content increased. Crystallinities and densities of CD‐PET/ m ‐iPP‐conjugated fibers presented a linear relation with the blend ratio. On the morphological observation, it was revealed that the blends were in a dispersed phase structure. In this study, the CD‐PET microfibers were successfully produced with enhanced diameters (from 2.2 to 2.5 μm). Additionally, m ‐iPP colored fibers ( m ‐iPP fibers covered with CD‐PET polymer) were also successfully prepared. Meanwhile, the presence of PP‐ graft ‐MA compatibilizer improved the tenacity considerably. Blends with 10 wt % compatibilizer exhibited maximum improvement in the tenacity for m ‐iPP colored fibers. The dye exhaustions of various fabrics followed the order: m ‐iPP colored fibers > conventional CD‐PET fibers > CD‐PET microfibers. © 2006 Wiley Periodicals, Inc. J Appl Polym Sci 102: 5396–5405, 2006