new material
Barium titanate structural components offer high dielectric strength, optimized mechanical stability, and superior ferroelectric properties. Designed for electronic and industrial applications, they provide reliable insulation, extended durability, and enhanced energy storage efficiency.
Product Overview
Barium Titanate (BaTiO₃) is a fundamental inorganic dielectric material that is widely used in various fields due to its excellent dielectric properties, temperature characteristics, and chemical stability. The structural components made from Barium Titanate are processed through solid-phase synthesis, ensuring a fine particle size distribution and low moisture content, which contribute to their high stability and superior performance. This material is particularly advantageous in applications that require high dielectric performance, such as in electronic ceramics, capacitors, and thermistors.
Features
- Excellent Dielectric Properties: Barium Titanate offers outstanding dielectric constant and low dielectric loss, making it ideal for high-performance capacitors.
- Good Temperature Characteristics: It exhibits stable temperature properties, making it suitable for operation in various environmental conditions.
- High Chemical Stability: Barium Titanate remains stable in a variety of chemical environments, making it ideal for use in catalytic and chemical processing applications.
- Low Moisture Content & High Purity: Precision-controlled processing ensures low moisture content and high purity, enhancing the performance and lifespan of devices made from this material.
- Fine Particles: The particle size ranges from 0.5 to 2.0 microns, meeting the needs of various applications.
Applications
- Electronic Ceramics: Used in the manufacturing of ceramic capacitors, filters, and other electronic components, meeting the demands for high frequency and stability.
- Ceramic Capacitors: Suitable for producing high-capacitance, high-stability capacitors.
- Thermistors: Used in the manufacture of PTC thermistors, benefiting from its superior temperature characteristics.
- Catalysts: Barium Titanate is used as a catalyst material in chemical reactions and for improving the properties of organic substances.
- Organic Materials Modification: Enhances the thermal resistance and chemical stability of organic materials.
- Fine Ceramics: Plays a crucial role in fine ceramics and optoelectronic devices, improving the performance of these components.
| Items | Specifications | Remarks |
| Particle Size | 0.5~2.0 (0.5 increments) | Laser Particle Size Analyzer |
| Water Content | < 0.1 wt% | Hold at 105°C for 1 hour |
| Loss on Ignition at High Temperature | < 0.5 wt% | Hold at 800°C for 1 hour |
| Crystal Structure | Tetragonal | X-ray Fluorescence Spectroscopy |
| Model | BT-1 Series | BT-2 Series | BT-3 Series |
| BaO/TiO2 Molar Ratio | 1.000±0.01 | 1.000±0.02 | 1.000±0.03 |
| SrO (wt%) | < 0.05 | < 0.1 | < 0.3 |
| Fe2O3 (wt%) | < 0.01 | < 0.03 | < 0.1 |
| K2O+Na2O (wt%) | < 0.01 | < 0.03 | < 0.15 |
| Al2O3 (wt%) | < 0.1 | < 0.2 | < 0.15 |
| SiO2 (wt%) | < 0.1 | < 0.2 | < 0.30 |
| Item | BaTi₄O₉ |
| BaO/TiO₂ Molar Ratio | 0.25±0.01 |
| SrO (wt%) | < 0.05 |
| Fe₂O₃ (wt%) | < 0.01 |
| Na₂O+K₂O (wt%) | < 0.01 |
| Al₂O₃ (wt%) | < 0.1 |
| SiO₂ (wt%) | < 0.1 |
