With thermally stimulated depolarization currents, we researched the relaxations of crosslinked polyethylene as it is used in medium-voltage cable insulation. Through conventional polarization two heteropolar peaks stand up in the spectra, at 80 and 105°C. As the sample is annealed, a homopolar peak is developed at about 99°C. With window polarization, our results indicated that the 80°C peak is a structured peak related to polar crosslinking subproducts and impurities. The 105 and 99°C peaks are fitted to the general kinetic-order model because the 105°C peak is related to free-charge detrapping at the crystalline phase, in the bulk and maybe at the amorphous-crystal interphases, and the peak that is observed at 99°C is due to injected charge. Annealing at high temperatures promotes the creation of traps in the material. Charge trapping at T Ͻ 70°C seems to be related to the increased insulator resistivity with annealing time.
A uniaxial compressive stress significantly modifies the dielectric and piezoelectric response of Pb(Zr,Ti)O3 (PZT)‐based piezoceramics. In soft PZT, the pre‐stress decreases both the piezoelectric coefficient and its increment with increasing dynamical stress amplitude. However, an increase of both quantities is shown in hard PZT. Similar effects are observed in the dielectric response. It is proposed that the differences between such behaviors are due to the possibility of domain coalescence in the materials whose domain walls have high mobility. Furthermore, the enhancement of the response in hard PZT could be explained by change of the interaction energy between complex defects and domain walls induced by the compression.
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