Abstract
In this paper, a homogenous pure Barium Titanate with formula (BaTiO3) was prepared from pure Barium Carbonate (BaCO3) and titanium dioxide (TiO2) using the solid-state reaction technique, were used as raw materials having micro size by mixing of molar ratio [1:1], the powder was calcined at temperatures (900-1350) °C. The solid-State reaction can consider as an attractive process realistic alternative to the expensive wet-chemical route, according to X-ray diffraction, all of the peaks of Barium Titanate powder were perfectly suited to the positions of the peaks of the standard tetragonal phase in the pattern for this process. And with preferred crystalline size for the powder calcined at 1350 °C manifested the best results, where all the peaks indicate the formation of Barium Titanate completely. In addition, each BaTiO3 Nanopowder was compared to a micro powder that had been manufactured, by conducting x-ray diffraction, diffraction peaks undergo shifting toward higher angle to the high value of 2Ө, and Nano powder particles are smaller than micro powder particles. And this refers to a decrease in lattice parameters, in terms of the peaks of the Nano powder preceding the peaks of the micro powder of BaTiO3 and that match the result that is obtained by scanning electron microscopy (SEM).
Highlights
Barium Titanate (BaTiO3) the first ceramic material in which ferroelectric behaviour was observed in 1945 by Vul and Goldman
The solid-State reaction can consider as an attractive process realistic alternative to the expensive wet-chemical route, according to X-ray diffraction, all of the peaks of Barium Titanate powder were perfectly suited to the positions of the peaks of the standard tetragonal phase in the pattern for this process
Each BaTiO3 Nanopowder was compared to a micro powder that had been manufactured, by conducting x-ray diffraction, diffraction peaks undergo shifting toward higher angle to the high value of 2Ө, and Nano powder particles are smaller than micro powder particles
Summary
Barium Titanate (BaTiO3) the first ceramic material in which ferroelectric behaviour was observed in 1945 by Vul and Goldman. Barium Titanate is the first ferroelectric ceramic and it a good candidate for a range of applications due to its high dielectric and piezoelectric properties] 1[. As the method used (Solid- State Reaction) has a great impact on the structure and properties of Barium Titanate materials, Because of its large dielectric constant and low loss characteristics. It was widely used in many applications, including multilayer ceramic capacitors (MLCS), capacitors with high voltage, capacitors with rapid response, and is used in thin films. The Perovskite structure is considered as a (3D) three framework of BO6 octahedral Figure (1.a), but it can be considered as a cubic closed pack arrangements of A, and O ions with the B ions filling the interstitial positions Figure (1.b) [6]
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