Core performance advantages of ZrB ₂
Ultra high temperature stability
The melting point is as high as 3040 ° C, and it can maintain structural integrity in extreme environments above 2000 ° C, far exceeding traditional metal materials (such as nickel based alloys with a melting point of about 1300 ° C).
During high-temperature oxidation, a protective layer of ZrO ₂ and B ₂ O3 glass phase is formed, which blocks oxygen diffusion and significantly reduces the oxidation rate.
Repair and Reinforcement
The melting point is as high as 3040 ° C, and it can maintain structural integrity in extreme environments above 2000 ° C, far exceeding traditional metal materials (such as nickel based alloys with a melting point of about 1300 ° C).
During high-temperature oxidation, a protective layer of ZrO ₂ and B ₂ O3 glass phase is formed, which blocks oxygen diffusion and significantly reduces the oxidation rate.
Outstanding mechanical performance
The melting point is as high as 3040 ° C, and it can maintain structural integrity in extreme environments above 2000 ° C, far exceeding traditional metal materials (such as nickel based alloys with a melting point of about 1300 ° C).
During high-temperature oxidation, a protective layer of ZrO ₂ and B ₂ O3 glass phase is formed, which blocks oxygen diffusion and significantly reduces the oxidation rate.
