Magnesium Titanate (Mg2TiO4) & Magnesium Metatitanate (MgTiO3)

Product Introduction

Magnesium Titanate (Magnesium Titanate---Mg2TiO4 Magnesium Metatitanate---MgTiO3) is a basic inorganic dielectric material with excellent dielectric properties, frequency characteristics, and mechanical properties. It is widely used in the performance improvement of ceramic capacitors, microwave antennas, filters, and ceramic substrates.

Under a strict quality control system, WuXi Noble Electronics Co., Ltd uses solid phase synthesis technology to prepare magnesium titanate with excellent quality and stable quality.

 

Physical Properties

Item	Spec	Remark
Particle Size Distribution (D50)	0.2 ~ 30 μm	Laser Particle Size Analizer
Water Content (wt%)	0.2 ~ 30μm ：  < 0.5	105℃ × 1Hr
Ignition Loss (wt%)	0.2 ~ 30μm ：  < 1.0	800℃ × 1Hr

 

Chemical Composition 

Product  No.	M2T-1 Series	M2T-2 Series	MT-1 Series	MT-2 Series
MgO/TiO2(mole ratio)	2.000±0.01	2.000±0.02	1.000±0.01	1.000±0.02
CaO(wt%)	<0.05	<0.1	<0.05	<0.1
Fe2O3 (wt%)	<0.05	<0.1	<0.05	<0.1
K2O+Na2O(wt%)	<0.05	<0.1	<0.05	<0.1
Al2O3 (wt%)	<0.1	<0.2	<0.1	<0.2
SiO2(wt%)	<0.1	<0.2	<0.1	<0.2

 

Product Applications

Magnesium Metatitanate (MgTiO₃) is an inorganic compound with excellent dielectric properties and thermal stability. It is widely used in high-performance electronic devices, ceramic materials, and high-temperature and high-frequency equipment. Its chemical stability and mechanical strength make it an ideal material for many applications, especially for electrical insulation, electronic ceramics, sensors, and microwave equipment.

Main Application Areas:

1. High-frequency capacitors and microwave equipment

MgTiO₃ has a high dielectric constant and low dielectric loss, and is widely used in high-frequency capacitors, especially in radio frequency equipment, microwave circuits, and communication equipment. It can effectively reduce signal loss and provide stable electrical performance to ensure the reliability of the equipment.

2. Electrical insulation materials

Magnesium titanate powder is widely used as electrical insulation materials in high-voltage electrical equipment, such as transformers, cables, switchgear, etc., due to its excellent electrical insulation properties. It can maintain good electrical properties in high-voltage environments and prevent current leakage.

3. High-temperature electronic components

Due to its excellent thermal stability, MgTiO₃ can be used in high-temperature electronic components, such as high-temperature sensors, thermoelectric materials, and high-temperature resistant ceramics. It can maintain stable performance in high temperature environments and is suitable for high temperature working conditions.

4. Sensor materials

MgTiO₃ is particularly prominent in sensors, especially pressure sensors, temperature sensors and gas sensors. Its high dielectric constant and thermal stability make it an ideal choice for these devices, ensuring accurate signal measurement and response.

5. Wireless communication and RF applications

In wireless communication and microwave technology, magnesium titanate is suitable for antennas, waveguides, microwave components and other devices due to its low loss and stable dielectric constant, helping to improve signal transmission efficiency.

6. Ceramic heating elements

MgTiO₃ is also commonly used in heating elements, such as in electric furnaces and thermocouples. Its high temperature stability and wear resistance enable it to provide reliable electrical performance in high temperature environments.

 

FAQ

1. What are the main applications of MgTiO₃?

Magnesium titanate is widely used in high-frequency capacitors, microwave equipment, electrical insulation materials, high-temperature electronic components, sensor materials and other fields, especially in applications requiring high dielectric properties, high temperature stability and corrosion resistance.

2. What is the electrical insulation performance of MgTiO₃?

MgTiO₃ has excellent electrical insulation and is suitable for electrical insulation materials in high-voltage electrical equipment, such as transformers and cables. It can maintain stable electrical performance in high-voltage environments, effectively preventing current leakage and equipment failure.

3. What is the thermal stability of MgTiO₃?

MgTiO₃ has excellent thermal stability and can maintain stable electrical performance in high-temperature environments. It is suitable for high-temperature electronic components, thermoelectric materials, and ceramic sensors.

4. Is MgTiO₃ suitable for RF and microwave applications?

Yes, magnesium titanate is very suitable for RF equipment, microwave circuits, antennas and other equipment due to its high dielectric constant and low dielectric loss. It can effectively reduce signal loss and ensure stable operation of the equipment in high-frequency environments.

5. Is MgTiO₃ suitable for sensor applications?

Yes, the high dielectric constant and thermal stability of magnesium titanate make it an ideal material for smart sensors such as pressure sensors, temperature sensors, and gas sensors.