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Magnesium titanate (Mg₂TiO₄) offers optimized dielectric properties, superior thermal stability, and excellent mechanical strength. Designed for electronic and industrial applications, it ensures reliable insulation, extended durability, and high-performance energy storage.
Product Overview
Magnesium titanate (Mg₂TiO₄) is a ceramic material with a spinel crystal structure, widely used in the field of precision electronic ceramics. Made primarily from titanium dioxide and magnesite through a solid-state synthesis process, it offers good dielectric properties and stability. Magnesium titanate is mainly used as a basic dielectric material in the manufacturing of thermally stable ceramic capacitors, microwave dielectric resonators, and other electronic devices. With a relative dielectric constant of about 20 and low dielectric loss, it is suitable for capacitors and other precision electronic ceramic products requiring high stability.
Features
- Spinel Structure: The spinel crystal structure of magnesium titanate provides excellent electrical properties.
- Moderate Dielectric Constant: The relative dielectric constant is around 20, making it suitable for applications requiring a lower dielectric constant.
- Low Dielectric Loss: With a dielectric loss tangent of (1–3)×10⁻⁴, it ensures efficient energy transmission.
- Good Thermal Stability: It performs well in high-temperature environments, offering good thermal stability.
- Excellent Sintering Performance: By adjusting the titanium-to-magnesium ratio in the formula, materials with different dielectric constant temperature coefficients can be obtained to meet various application needs.
Applications
- Ceramic Capacitors: Used to manufacture thermally stable ceramic capacitors for use in electronic circuits.
- Microwave Dielectric Resonators: Suitable for dielectric resonators in microwave devices, enabling high-frequency signal processing and transmission.
- Precision Electronic Ceramics: Widely used as a basic material for high-precision electronic devices and electrical components.
- High-Temperature Electrical Equipment: Used as a base material for electronic components in high-temperature and high-pressure environments.
- Microelectronics: Employed as a dielectric material in microelectronic devices, enhancing their stability and reliability.
| Project | Data | Method |
| Particle Size (μm) | 0.8-2.0 (adjustable) | Laser measurement |
| Moisture Content (wt%) | <0.1 | At 105℃ (1 hour) |
| Loss on Ignition (wt%) | <0.5 | At 800℃ (1 hour) |
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