| Autor: |
Lomax, J. F., Fontanella, J. J., Edmondson, C. A., Wintersgill, M. C., Wolak, M. A., Westgate, M. A., Lomax, E. A., Lomax, P. Q., Bogle, X., Rúa, A., Greenbaum, S. G. |
| Předmět: |
|
| Zdroj: |
Journal of Applied Physics; 2014, Vol. 115 Issue 10, p104103-1-104103-10, 10p, 3 Black and White Photographs, 14 Graphs |
| Abstrakt: |
The real part of the relative permittivity, ϵ', and dielectric loss, tan δ, have been determined at audio frequencies at temperatures from about 5K to 350K for nano-composites composed of BaTiO3 nanoparticles and polycarbonate. The room temperature breakdown strength was also measured and thermal analysis, nuclear magnetic resonance and scanning electron microscopy studies were carried out. For some films the nanoparticles were surface-treated (STNP) while for others they were not (UNP). For concentrations of UNP greater than about 3.4 vol. %, ϵ' is much larger than expected on the basis of laws of mixing. On the other hand, ϵ' for materials made using STNP is well-behaved. Correspondingly, increased loss (ϵ" or tan δ) in the vicinity of room temperature is observed for the materials made from UNP. The anomalously large values of relative permittivity and increased loss are attributed to the presence of large aggregates in the materials made using the UNP. For both UNP-and STNP-based materials, the breakdown strength is found to decrease as nanoparticle concentration increases. The breakdown strength for the materials made using STNP is found to be larger for all concentrations than for those containing UNP despite the presence of large aggregates in some of the STNP-based materials. This shows that breakdown is strongly affected by the nanoparticle surfaces and/or the interface layer. It is also found that the breakdown strength for materials made using UNP increases as particle size increases. Finally, variable temperature and pressure proton nuclear magnetic resonance relaxation measurements were made to assess the effect of nanoparticle inclusion on polymer motion, and the effects were found to be very minor. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
|
