Solvent induced miscibility between polymers, and its influence on the morphology, and mechanical properties of their blends.

Solvent dependent miscibility, morphology, thermal, and mechanical behavior of polystyrene (PS) + poly (styrene-co-acrylonitrile) (PSAN) blend films cast from dimethyl form amide (DMF), and chloroform (CHCl 3 ) solvents, were examined by scanning electron microscopy (SEM), Fourier transform infra-red (FTIR) spectroscopy, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and tensile testing techniques. Morphological analyzes revealed better interfacial adhesion between the blend components in DMF than CHCl 3 . Almost no signs of miscibility were detected in PS/PSAN blends irrespective of the type of casting-solvent by FTIR probably due to very weak intermolecular interactions. All the blend films, irrespective of the type of solvent, showed two glass transition temperatures that were composition-dependent in the case of PS + PSAN from DMF. However, in the case of PS/PSAN/chloroform blend system, almost all the blend compositions retained the T g values of their components. The T g results suggested partial miscibility of the components in the DMF and almost immiscibility in the CHCl 3 . Thermal degradation behavior also verified DSC results as PS/PSAN/DMF blend film having composition, 25/75 indicated greater thermal stability than the neat polymers, and other blend compositions. However, in the case of PS + PSAN from chloroform, all the blend compositions were thermally less stable as compared to the neat polymers. Mechanical properties also corroborated SEM, DSC, and TGA results for both the blend systems thereby confirming partial miscibility of PS + PSAN from DMF, and immiscibility of PS + PSAN from chloroform blend systems. [ABSTRACT FROM AUTHOR]