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Barium Titanate Batio3 99% Min CAS No.: 12047-27-71
New type Chemical MaterialHigh Quality Barium TitanateBarium Titanate Batio3
HENAN KINGWAY TECHNOLOGY CO., LTD.
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Product Description Product Description BARIUM TITANATE BaTiO3Molecular Formula:BaTiO3Molecular weight: 233.19Appearance:white crystals powderOdor:odorlessDensity:6.02 g/cm3, solidMelting point:1625 'C (2957 'F; 1898 K)Solubility in water:insolubleSolubility: slightly soluble in dilute mineral acids; dissolves in concentrated hydrofluoric acidHigh quality Barium titanate(IV)(BaTiO3) CAS 12047-27-7Typical Analysis: BaO/TiO2 (Mol):1.000±0.010BaTiO3%:99.0 min.SrO%: 0.40 max.Na2O%: 0.10 max.K2O%: 0.015 max.Al2O3%:0.10 max.SiO2%:0.10 max.Fe2O3%:0.015 max.MgO%:0.01 max.Average Particle Size: 1.5um aroundPacking: 25kg plastic woven bag or paper bag with 2-ply PE inner.Uses: Manufacture of various capacitor, thermoplastic materials, semi-conductor capacitor, ceramic materials, etc. chemical name: Bariumtitanatesinteredlumpmmwhitepieces; barium titanium trioxide; Bariumtitanatewhitepowder; Barium titanate; BARIUM TITANATE, 99%; Barium titanium oxide; barium(+2) cation; oxygen(-2) anion; titanium(+4) cation; barium dioxido(oxo)titanium; dibarium tetraoxidotitaniumBariumtitanate sintered lumpmm white pieces;barium titanium trioxide; Bariumtitanatewhitepowder;Barium titanate; BARIUM TITANATE, 99%; Barium titanium oxide;barium(+2) cation; oxygen(-2) anion; titanium(+4) cation;barium dioxido(oxo)titanium; dibarium tetraoxidotitaniumBarium titanate (BaTiO3) is one of the well-known ferroelectric materials and has been studied by many researchers for use in multilayer capacitors, thermistors, and electro-optic devices. This material shows a permittivity maximum at around 130 °C, and the permittivity values change largely in the range of 0 - 120°C. For practical use in ceramic capacitors, higher permittivity with low temperature-dependence, particularly around room temperature (10 - 80°C), is required. To achieve this requirement, many kinds of dopants, such as Ca2+, Mg2+, or Zr4+, have been added to BaTiO3, which results in the suppression and/or broadening of the permittivity maximum and showing low temperature-dependence of permittivity. In addition to these doping methods, preparation of compositionally graded ceramics has also been attempted. For example, Ota et al. (2001) prepared (Ba1-xSrx)TiO3 laminated ceramics with varying x from one to the other side, and reported a flat permittivity profile (4000 - 5500) in the temperature range 30 - 110°C. Designing of this type of graded ceramics is based on the concept that the apparently observed permittivity is the summation of its respective value of the constituting component. Though the permittivity of the laminated ceramics is controllable by changing the volume fraction of the components, lamination of several components with different thermal expansion coefficient is rather difficult. Mixing the powders with several components, rather than laminating them, seems easy and simple from the manufacturing standpoint. However, there have been few techniques to prepare such ceramics consisting of compositionally graded grains, because the conventional sintering of mixed particles with different components usually results in the solid solution.Detailed Photos
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