Influence of polarity of polymer on inorganic particle dispersion in dielectric particle/polymer composite systems

Abstract

AbstractThe influence of the polarity of polymers on the degree of dispersion of BaTiO3 particles in BaTiO3/polymer composite systems was investigated. The BaTiO3 polymer composite systems were prepared from BaTiO3 particles and low‐density polyethylene (LDPE) or ethylene vinyl acetate copolymer (EVA) with 7 and 15 wt % vinyl acetate. Scanning electron microscopy observation showed that BaTiO3 particles aggregated in the polymer matrices and dispersed more readily into the EVA matrix than into LDPE. The shift of the β‐peak temperature by ca. +5°C in the temperature dispersion of the loss modulus was observed for EVA–BaTiO3 composite systems in dynamic mechanical property measurement. On the other hand, the β‐peak temperature of the polymers filled with graphite particles, which have hydrophobic surfaces, was almost constant in a volume fraction region of 0–0.3. The ellipsoidal axes' ratios given by comparison of experimental dielectric constant values and theoretical ones using the Maxwell equation were 4.2, 3.6, and 3.1 for LDPE/BaTiO3, EVA(7%)/BaTiO3, and EVA(15%)/BaTiO3 composite systems, respectively. The axes' ratio decreased by the introduction of polar vinyl acetate groups into nonpolar LDPE. The results confirmed that the polarity of the polymers was one of the key factors governing the dispersibility of BaTiO3 particles in the polymer matrix. © 1995 John Wiley & Sons, Inc.