Effect of the molecular architecture of graft copolymers on the phase morphology and tensile properties of PS/EVA blends

## Abstract We have used self‐consistent field theory to calculate the tensile moduli of triblock copolymers in lamellar microstructures prepared from linear and star architectures. The extensional moduli __K__~33~ are the main contributors to the tensile moduli, and the contribution of ${{\rm{K}}{

## Abstract We investigated the relationship between morphology and mechanical properties in binary blends of isotactic polypropylene (PP) and atactic polystyrene (PS) showing completely phase‐separated morphology. The domain size and crystallinity in PP phase were controlled by the comp‐molding co

## Abstract The mechanical properties of blends of isotactic polypropylene (PP) and poly[ethylene‐__co__‐(vinyl acetate)] (EVA) are studied under tension at several temperatures (from −30°C to room temperature). The morphology and thermal properties are given attention at every stage of the stretch

## Abstract **Summary:** The effect of chain architecture of in situ formed copolymers on the interfacial morphology of reactive polymer blends was investigated. We found that the chain architectures of copolymers at the interface significantly affected the reaction and interface roughness. Althoug

The effects of reactive reinforced interface on the morphology and tensile properties of amorphous polyamide (a-PA) and styrene-acrylonitrile (SAN) copolymer blend have been investigated using styrene maleic anhydride (SMA) copolymer as a reactive compatibilizer. The anhydride groups of SMA copolyme