Carbon Bricks for Furnace Bottom Masonry

Product Details
Customization: Available
Feature: Long Time Materials
Shape: Block
Manufacturer/Factory, Trading Company, Group Corporation
Gold Member Since 2014

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  • Carbon Bricks for Furnace Bottom Masonry
  • Carbon Bricks for Furnace Bottom Masonry
  • Carbon Bricks for Furnace Bottom Masonry
  • Carbon Bricks for Furnace Bottom Masonry
  • Carbon Bricks for Furnace Bottom Masonry
  • Carbon Bricks for Furnace Bottom Masonry
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Basic Info.

Model NO.
customize
Compressive Strength
Min. 35MPa
Apparent Porosity
Max.18%
Bulk Density
Min. 1.55g/cm3
Ash
Max. 12%
Refractoriness (℃)
Refractoriness> 2000
Type
Refractory Material
Material
Carbon
Transport Package
Pallet
Specification
400*400*1500MM
Trademark
SINCERCARBON
Origin
China
HS Code
69029000
Production Capacity
50000t/Y

Product Description

Our company borrowed the scratch technology of aluminum cathode carbon bricks from the processing technology of electric furnace carbon bricks as early as 2000. On this basis, after more than a decade of continuous exploration and innovation, a single and double slotted mortise and tenon structure of carbon bricks was formed in 2012. After years of application in various large-scale mine heating furnace bottom masonry, the bonding strength between carbon bricks has been improved, greatly reducing the probability of molten iron penetrating cracks and causing furnace piercing accidents. The effect is significant.

There are several advantages to using carbon bricks with high strength, pressure resistance, and erosion resistance to build the furnace bottom for large-scale ore heating furnaces:

1. Reduce gaps;

2. Large single weight, anti-loosening, and anti-drift;

3. Large single surface area, large bonding area between carbon blocks, and high bonding strength;

4. High strength, good wear resistance, and enhanced erosion resistance;

5. Low porosity, strong anti-seepage ability, and ability to slow down the peeling and peeling caused by the infiltration and erosion of molten carbon brick surface;

6. High flexural strength reduces the brittleness of carbon bricks. Ensuring the stability of the internal structure of carbon bricks under thermal shock;

7. Low ash content, enhanced acid and alkali resistance, and corrosion resistance;

8. Slotted locking buckles on both sides of the carbon brick reduce the probability of molten iron penetrating the gaps of the carbon brick;

9. Match the joint paste with the same material as carbon bricks to enhance the resistance of the joint to penetration of molten iron;

10. Extending furnace life, reducing carbon consumption, and reducing carbon emissions are in line with the development trend of the "dual carbon" goal.

 
Items Unit Guarantee
Compressive Strength  min MPa 35
Apparent Porosity max % 18
Bulk Density  min g/cm3 1.55
Alkali Resistance   U/ LC
Permeability max mDa 40
Oxidation max % 18
Ash max % 12
Thermal Conductivity min W/(m.K) 7.0
Carbon Bricks for Furnace Bottom MasonryCarbon Bricks for Furnace Bottom MasonryCarbon Bricks for Furnace Bottom Masonry

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