点击次数：

论文类型： 期刊论文

发表时间： 2021-02-02

发表刊物： JOURNAL OF APPLIED POLYMER SCIENCE

卷号： 138

期号： 11

ISSN号： 0021-8995

关键字： composites; rheology; sensors and actuators; viscosity and viscoelasticity

摘要： DCs composed by dielectric particles and elastomer matrix present electric field dependent deformation. Viscoelasticity dominates their electric field response, which has to be considered in their applications. Although the influence of strain amplitude and oscillation frequency on the viscoelasticity of DCs has been investigated, the effect of electric field has been seldom studied. In this study, DCs were prepared by dispersing TiO(2)particles with different concentrations and different distributions within silicone rubbers. The areal strain and the storage modulus of the DCs under different electric fields were tested. The results indicated the electric field has significant influence on the storage modulus of the DCs. Such an electric field dependent storage modulus is more significant for the DCs with higher particle fraction, or with aligned distributed particles. The enhanced electrostatic interaction between the adjacent particles by applying electric field is responsible for the phenomena.