Polystyrene nanostructured blends

The volume resistivity, permittivity, and dielectric loss factor of nanostructured interpenetrating polymer networks based on natural rubber/polystyrene have been found to increase as a function of blend composition, reaching a maximum of 10 -10 Hz dielectric loss factor [27]. Measurements of volume resistivity have also been reported on epoxy resin-polyaniline blends resulting in the establishment of a correlation between a shoulder on the 1583 cm band with the degree of volume resistivity [31]. 

Employing the field emission gun scanning electron microscopy (FEG-SEM) and TEM to study the morphology of the epoxy reinforced with polystyrene-p-polybutadiene-p-poly(methyl methacrylate) block copolymer (SBM), the nanostructured epoxy matrix with disperse micro-scale phase was revealed. Enhanced flexural properties, which were dependent on the composition of blend was obtained. 

Akiba I, et al. Nanostructured polymer blend formed from poly(N-vinylpyrrolidone) and end-fnnctional polystyrene. Polymer 2004 45(17) 5761-4. 

Shabbir S, et al. Synthesis, morphology, and properties of self-assembled nanostructured aramid and polystyrene blends. J Phys Chem B 2010 114(41) 13241-8. 

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