In today’s rapidly developing modern electronics technology, electronic ceramics, as key foundational materials, directly impact the quality and performance of electronic products. Magnesium oxide, a seemingly ordinary inorganic compound, plays a pivotal role in the field of electronic ceramics, quietly driving the innovation and progress of electronic ceramic technology.
Magnesium oxide possesses excellent insulation properties, effectively preventing current leakage and ensuring the stability and reliability of electronic components during operation. In high-voltage ceramic capacitors and other electronic components, the insulating properties of magnesium oxide allow it to withstand high voltages without being breakdown, greatly improving the safety of electronic products.
At the same time, it can also help electronic ceramics improve heat resistance, reducing performance degradation caused by temperature changes, so that electronic ceramics can still maintain good working condition in high-temperature environments, broadening its application range. Not only that, magnesium oxide can also enhance the mechanical strength of electronic ceramics, enabling them to withstand external pressure and impact, which is of great significance for improving the durability of electronic products.
In the preparation process of electronic ceramics, magnesium oxide, as a sintering aid, can significantly reduce the sintering temperature, promote the densification of the sintered body, and thus improve the sintering performance of electronic ceramic materials and reduce production costs. Its unique crystal structure and chemical properties also help to form a uniform and dense microstructure, further enhancing the mechanical and electrical properties of electronic ceramics. In the manufacture of electronic components such as capacitors and insulators, magnesium oxide can improve the dielectric properties of the material, increase the insulation resistance and dielectric constant, ensuring the stability of the component under high frequency and high voltage conditions. In addition, magnesium oxide in electronic ceramics can also promote ion conduction and charge balance, which is crucial for improving the overall performance of electronic ceramics.
TengMei (Hebei) New Material Technology Co., Ltd. has made significant achievements in the application of magnesium oxide in the field of electronic ceramics. The company uses unique purification and granulation technology to prepare high-purity ultrafine magnesium oxide. Its product advantages are prominent, with a purity of up to 99.95%, and extremely low content of heavy metals such as sodium; it has good dispersibility and can be evenly distributed in the ceramic matrix; the size distribution is uniform, the particle size is small, the sintering activity is high, the fluidity is good, and the sphericity is excellent, making it easy to form. TengMei’s developed high-dispersibility magnesium oxide has played an important role in the transparent ceramics, thermal conductive ceramics, and functional ceramics industries.
With the continuous progress of science and technology, electronic ceramics have increasingly higher requirements for material performance. With its unique physical and chemical properties, the application prospects of magnesium oxide in the field of electronic ceramics will be broader. Messi Biology will continue to provide strong support for the development of the electronic ceramics industry, promote electronic ceramic technology to a new height, and inject a continuous stream of power into the development of modern electronics technology.