One of the key advantages of magnesia chrome refractory is its durability. It has a high resistance to thermal shock, meaning it can withstand sudden changes in temperature without cracking or breaking. This makes it ideal for use in high-temperature applications, such as furnace linings, where it provides reliable and long-lasting resistance to heat.
Overall, magnesia chrome refractory is an excellent choice for anyone who needs a reliable and durable material for high-temperature applications. It is versatile, long-lasting, and highly resistant to heat and corrosion, making it an investment that will pay off for years to come.

1. High-temperature resistance: Magnesia Chrome Refractory can withstand very high temperatures, up to 1800 degree , making it suitable for use in furnaces, kilns, and other high-heat applications.
2. Excellent chemical stability: This material is resistant to corrosion from acidic and basic environments, making it great for use in chemical processing and metallurgical industries.
3. Good dimensional stability: Magnesia Chrome Refractory maintains its shape even at high temperatures, making it ideal for lining blast furnaces and other heated vessels.
4. High mechanical strength: This material has high compressive strength, making it durable and long-lasting in high-stress environments.
5. Low thermal conductivity: Magnesia Chrome Refractory is a good insulator of heat, which makes it great for use in heat exchangers and other high-temperature applications where heat transfer needs to be controlled.
6. Cost-effective: Magnesia Chrome Refractory is cost-effective and offers a low cost of ownership because of its durability and long life span.
7. Resistant to thermal shock: This material can withstand rapid heating and cooling without cracking or breaking, making it ideal for use in applications that require sudden temperature changes.
8. Easy to install: Magnesia Chrome Refractory is easy to shape and install, which makes it a popular choice in many different industries.
- Direct Bonded Magnesia-Chrome Brick
It is made from high-purity magnesia and chromite materials and sintered under high temperatures in the tunnel kiln, it's widely used in the lining of RH/DH vessels, cement rotary kilns, glass tank furnaces, non-ferrous metal metallurgical furnaces, AOD, VOD furnaces, etc.
- Re-Bonded Magnesia- Chrome Brick
It is made from fully electro-fused MgO-Cr2O3 grain, and fired under more than 1700 degree C with a weak oxidizing atmosphere. It's a high-quality Magnesia Chrome product with excellent strength & volume stability at high temperatures, excellent slag corrosion resistance and erosion resistance; widely used in second-refining furnaces, like slag line of VOD and AOD, RH/DH's snorkels and regenerators of glass kiln, etc.
- Semi-Re-Bonded Magnesia-Chrome Brick
It is made from electro-fused MgO-Cr2O3 grain, fused magnesia, chromite and some sintered MgO-Cr2O3 grain, then fired at high temperature. It has some characteristics both directly bonded and re-bonded, like dense inner structure, lower porosity, good high-temperature strength, thermal shock resistance is better than re-bonded, and slag erosion resistance is better than direct bonded. It can be used in the sidewall of EAF, DH/RH degasser, VOD, LF, AOD's side wall/bottom or free board and some serious parts like slag line, regenerators of glass furnace, etc.
1. Steelmaking: Magnesia Chrome refractory is widely used in the steelmaking industry, especially in the production of high-alloy steel and stainless steel. It is used to line furnaces, ladles, and other equipment that are subjected to high temperatures and corrosive environments.
2. Glassmaking: Magnesia Chrome refractory is also used in the glass industry, where it is used to line furnaces and other equipment used in glass production. It is highly resistant to the high temperatures and corrosive chemicals used in the glassmaking process.
3. Cement manufacturing: Magnesia Chrome refractory is used in the production of cement, where it is used to line kilns and other equipment that are used in the manufacturing process. It is highly resistant to the high temperatures and corrosive chemicals used in the cement manufacturing process.
4. Petrochemical industry: Magnesia Chrome refractory is used in the petrochemical industry, where it is used to line reactors and other equipment used in the production of chemicals and other petrochemical products.
5. Power generation: Magnesia Chrome refractory is used in the power generation industry, where it is used to line boilers and other equipment used in the production of electricity. It is highly resistant to the high temperatures and corrosive chemicals produced during the combustion of fossil fuels.
6. Incineration: Magnesia Chrome refractory is used in the incineration industry, where it is used to line incinerators and other equipment used in the disposal of waste products. It is highly resistant to the high temperatures and corrosive chemicals produced during the incineration process.
maq per Qat:


