Zirconium boreide, a chemical substance that has the molecular structure ZrB2, is one example. Zirconium boreide is a grey-gray crystal. The three main components of zirconium-boride are zirconium monoboride and zirconium dimoride. The stability of zirconium boride in wide temperatures is limited to the diboride. Zirconium boride is used mostly in industrial production.

Zirconium diboride properties:

Zirconium boride can be found in hexagonal crystal forms, as well as gray crystals or powders. It has a relative density of 5.8 and a melting point of 3040. Zirconium diboride exhibits high resistance, strength and stability at elevated temperatures.

Zirconium boreide is metallic and has an electrical resistance slightly less than the metallic zirconium. The material is stable over a large temperature range once heated. Although its melting point is very high, zirconium-boride can be sintered at much lower temperatures. By combining metal zirconium with the boron carbide, boron nitride, and heating to 2000 degrees C in an argon flow, zirconium boride can be prepared.

Zirconium boreide is one common material in Boride. ZrB2 features a high melting points, good stability, and high resistance to corrosion. This material is often used to make high-temperature functional and high-temperature materials.

Use of zirconium-boride in ZrB2-C reactors

While it is now much more resistant to molten iron erosion and spalling than before, there is still some problem with strong erosion and an accumulation of alumina. ZrB2 is a ZrB2 product that uses ZrB2 materials to resist molten iron erosion. It also has good performance at high temperatures. C-ZrB2 quality, nozzle protection rings. ZrB2 is high-temperature oxidized to produce a low melting liquid phase B2O3. The reaction with Zr0 increases the viscosity and corrosion resistance.

Use zirconium-boride in Mg0-C reactors

You can either add ZrB2 into Mg0-C or use ZrB2 directly as an aggregate, powder or fine powder for refractory bricks or castables. This is because ZrB2 has a higher antioxidant activity at moderate temperatures than A1. When the temperature is low, the liquid phase starts to form. The MgO particles condense on it and eventually forms a reactionant. If the temperature rises above 700°C, condensate containing B2O3 is formed. This condensate acts as an antioxidant, hinders oxygen's diffusion, and acts as a protection layer. The advantages of adding A1 for antioxidants are evident at higher temperatures. B2O3 is not able to evaporate at high temperatures, which can cause its antioxidation properties to be weakened.

Use of zirconium-boride in A1 and C refractories

ZrB2 has been added as an antioxidant for A1-C materials. This can have a great effect on between 700-12000. Also, because of formation of low-temperature liquid phases (B2O3*A1 Molten Phase Oxidized by ZrB2), this anti-oxidation mechanism can be about the same as that for Mg0-C. Additionally, an oxidized sample contains the 9A1*B2O3 crystal phases with a melting points as high at 1965. Low temperature and the initial condensation of this liquid phase can produce high-temperature products and higher erosion resistance.

The product will perform significantly better in terms of oxidation resistance as well as corrosion resistance.

ZrB2 Zirconium Diboride Ceramic Material can be used not only as an exceptional refractory, but also in space shuttles and missiles, which will improve the material's high-temperature resistance, safety, and performance.

ZrB2's low resistivity makes it suitable for electrode and contact materials. It is suitable for use in the electrodes of high-temperature heating devices and metal thermocouples.

Zirconium boreide has a high degree of hardness and is therefore very durable. It can also be used to make cutting tools.

Zirconium Diboride Powder has a very high melting point, strength and conductivity, as well as a positive conductivity coefficient and a low thermal expansion coefficient. Additionally, it has exceptional chemical stability, trapping concentrator and smoldering properties.

Rboschco (Advanced Material Tech Co., Ltd.) is a leading manufacturer of zirconium boride. We have over 12 years' experience in developing chemical products and research. We are happy to assist you in your search for the highest quality zirconium bore.

tags: Calcium nitride powder