Alumina Magnesia Carbon Brick
Magnesia carbon bricks are mainly used in the lining of converters, AC electric arc furnaces, DC electric arc furnaces, and slag lines of ladles in the steelmaking industry.
- Al2O3: ≥30-45%;
- Bulk Density: 1.9-2.22g/cm³;
- Refractoriness Under Load: 1250-1420ºC;
- Cold Crushing Strength: 30-45MPa;
- Size: 230*114*65mm (standard)/Custom sizes;
- Sample: testing of sample is available
Description of Alumina Magnesia Carbon Brick
Alumina magnesia carbon bricks, a type of refractory product, blend the advantages of multiple components. Alumina provides high refractoriness, magnesia offers good slag resistance, and carbon endows excellent thermal shock resistance and low thermal conductivity. They’re extensively used in steel – making equipment like converters and ladles, protecting against high – temperature molten steel and slag, ensuring stable operation in harsh industrial conditions.
Kerui Alumina Magnesia Carbon Brick Technical Data Sheet
| Item | KR AMC-5 | KR AMC-10 |
|---|---|---|
| MgO in DBM (%) | 10 | 10 |
| Al2O3 (%) | 60 | 60 |
| Fixed C (%) | 5 | 8 |
| A.P. (%) | 7 | 8 |
| B.D (gm/cm3) | 2.95 | 2.92 |
| C.C.S (kg/cm2) | 400 | 400 |
| Primary Raw Materials | Calcined Bauxite, Fused Magnesia and Graphite | |
| Application | Metal Zone and Bottom of LRF, VD , BOF and VOD | |
Advantages of Alumina Magnesia Carbon Brick
1.High refractoriness: They can endure extremely high temperatures, up to over 1600°C, making them suitable for harsh high – heat environments. 2.Good slag resistance: Resistant to the corrosive effects of various slags in metallurgical processes, maintaining structural integrity. 3.Excellent thermal shock resistance: Withstand rapid temperature changes without cracking, ensuring long – term service. 4.High mechanical strength: Capable of bearing mechanical loads during industrial operations, ensuring durability.
Application of Alumina Magnesia Carbon Brick
Alumina magnesia carbon bricks have wide applications in the metallurgical industry. In steel – making converters, they line the interior walls, enduring the extreme heat of molten steel and the corrosive action of slag. In ladles, these bricks are used to transport and hold the molten metal, ensuring heat preservation and preventing leakage. They are also applied in electric arc furnaces, playing a crucial role in withstanding high – temperature smelting processes and extending the service life of the equipment.
