Journal of Applied Polymer Science, Vol.124, No.3, 2449-2462, 2012
Modification of poly(propylene) by grafted polyester-amide-based dendritic nanostructures with the aim of improving its dyeability
Fiber-graded poly(propylene) was modified by polyester-amide-based dendritic nanostructures with the aim of improving its dyeability. Two different dendritic polymers were used and the dendritic nanostructures were formed in situ via reactive blending with maleic anhydride-modified poly(propylene). Samples were chosen exploiting a 4-component mixture design. Thermal, morphological, and rheological characterizations showed domains with different size and distribution were formed and primary properties of the dendritics determined the characteristics of the resulted domains. Morphological parameters were quantified by digital analysis of scanning electron microscope images. Thermal and rheological behavior also demonstrated good agreements with the inferred morphology of the formed dendritic domains. The modified samples were then dyed with dispersed dyestuffs. A variety of substantivities were obtained, and some of the modified samples showed a significant enhancement in dyeing properties. A predictive model was developed for K/S ratio, where K and S are absorption and scattering coefficients of the Kubelka-Munk one constant theory, respectively. (C) 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2012