Study the electrical properties of tin-doped barium titanate ceramics

Ceramic Sample of tin doped pure barium titanate prepared by solid-state reaction at a sintering temperature of 1350˚C for 3.5h. The electrical properties of ceramic BaTi1- xSnxO3 studied for the ratios (x= 0, 0.05, 0.07, 0.1, 0.12, 0.15, 0.17), as a function of temperature from 0˚C to 170˚C at 1kHz. The maximum value of the dielectric constant reached to έ=6568 for the content x=0.1 at the temperature Tc=50˚C. The phase transition for barium titanate was of the first type with γ=1.07. The degree of the transition changed by increase the ratio of added tin. Where the maximum value of transition degree γ=1.46 at the ratio x=0.15. Curie constant decreases with increasing ratios of tin added to the ceramic samples.

Study the electrical properties of calcium-doped barium titanate ceramics

Ceramic samples of calcium doped barium titanate have been prepared from highpurity raw materials by using solid-state reaction method at a sintering temperature of 1350˚C for 3.5h. The electrical properties of ceramic samples Ba1-xCaxTiO3 have been studied for the ratios (x = 0, 0.1, 0.3, 0.5, 0.7, 1), as a function of temperature within the range of 25˚C to 220˚C at the frequency 1kHz. Experimental results show that the Currie point moved within the temperature range from 120˚C to 150˚C by change of calciumadded ratios. Dielectric constant decreases by increasing the calcium-added ratios. The maximum value of the dielectric constant rached to έ=6898.85 for barium titanate at the temperature Tc = 132˚C. We got the high values of the tangent loss angle at both ends of the studied temperature range. Curie constant decrease of the samples by increasing the additional calcium ratios.