Effect of CaCu_3Ti_4O_(12) powders prepared by the different synthetic methods on dielectric properties of CaCu_3Ti_4O_(12)/ polyvinylidene fluoride composites

摘要

CaCu_3Ti_4O_(12) (CCTO) particles were prepared separately by the sol-gel method (sg) and solid-state method (ss). CCTO-sg particles were more uniform, narrower distribution size and smaller (effective diameter of 290 nm) than that of CCTO-ss particles with the value of 480 nm for CCTO-ss particles. The CCTO-sg particles exhibited a small particle size and in turn improved chemical activity and lower crystallization temperature, which give rise to the enhanced dielectric properties. CCTO-sg and CCTO-ss filled polyvinylidene fluoride (CCTO/PVDF) were molded by solution mixing process and hot-pressing. The enhanced dielectric constant, good frequency and temperature stability of CCTO/PVDF composites were significant with increasing the volume fraction of CCTO particles. Compared to two kinds of composites, the CCTO-sg/PVDF composites exhibited better dielectric properties than CCTO-ss/PVDF composites. The dielectric constant of 50 vol% CCTO-sg/ PVDF composites reached the maximum value of 62.3, which was 8 times and 2 times larger than that of pure PVDF and 50 vol%CCTO-ss/PVDF composites, respectively. The temperature coefficient ((C_T-C_(25℃))/C_(25℃) × 100 %) of CCTO-sg/PVDF composites was -3 to 10 % from -10 to 150 ℃ at 10 kHz, which was lower than that of CCTO-ss/PVDF composites. Meanwhile, the dielectric constant of CCTO/ PVDF obtained by Maxwell-Garnett model and Yamada model were in close agreement with the experimental data, respectively.