Changes of crystallinity and unit cell parameters for a low-density polyethylene as a
consequence of cross-linking by dicumyl peroxide and by electron beam irradiations are compared.
Polyethylene samples cross-linked by irradiation in the solid state present variations essentially only of
the a unit cell parameter while those cross-linked in the melt state present similar variations of both a
and b unit cell parameters. A strict analogy with unit cell variations observed for ethene random
copolymers with propene and with bulkier comonomers, respectively, is shown. This suggests inclusion
of cross-links for solid-state cross-linked samples, which would lead to a gradual transformation from an
orthorhombic to a pseudohexagonal phase, and exclusion of cross-links for melt state cross-linked samples,
which would generate tensions at the orthorhombic crystallite interphases.
Silica as reinforcing filler brings about a low hysteresis in elastomeric compounds. Aim of this work was to promote a better silica‐elastomer interaction by using, as minor ingredients of a compound, isoprene oligomers having a functional group as the chain end. The effect of the functionality was investigated by analysing the complex viscosity of silica‐oligomers binary mixtures as well as the morphological and rheological properties of masterbatches and compounds based on isoprene rubbers. A better silica dispersion and a lower Payne effect were clearly observed in the presence of functionalized oligomers.
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