alumina (Al₂O₃) crucibles have emerged as "cold-faced warriors" safeguarding the stable operation of high-temperature processes, thanks to their exceptional thermal shock resistance.

In the high-temperature industrial sector, aluminum oxide (Al₂O₃) has become one of the key materials due to its excellent high-temperature resistance, chemical stability, and mechanical strength.

In key fields such as precious metal smelting, jewelry detection, and electronics industry, the accuracy of assay results is directly linked to production efficiency and economic benefits.

The carbon ceramic brake system is a braking device with carbon fiber-reinforced silicon carbide composite materials as its core.

Traditional liquid battery separators (such as PE/PP) are prone to melting and shrinking at high temperatures, leading to short circuits between the positive and negative electrodes.

Supply and demand relationship: It is the most fundamental factor affecting alumina prices. When alumina production exceeds consumption, it will exert pressure on price increases; conversely, it will support price declines.

In the fields of industrial production and scientific research, accurately measuring the temperature of high-temperature environments is of vital importance, and the thermocouple protection tube plays an indispensable role in this regard.

In the field of materials science, customized porous alumina ceramics are gradually becoming the focus of attention in numerous industries, relying on their unique properties.

​Recently, an alumina ceramic rod, a ceramic material known as "industrial diamond," has attracted significant attention from the global academic, research, and industrial communities.

Recently, a series of remarkable progress has been made in the research of high-purity alumina in the field of materials science. Its unique sintering activity and extensive application characteristics are bringing new development opportunities to numerous industries.