Carbon Blocks used in furnace having a great alternative against Petcoke.
As it has high melting power and cheap as compared to Petcoke.
Here in India, we are a supplier and exporters of Carbon blocks.
Product Properties
1ï¼?High purity
- Control the consistency of raw material from the mine resource.
- Introduce automatic whole-process equipment to ensure product consistency.
2ï¼? Good performance
- Increase globular graphite amount in the nodular cast iron significantly to promote the graphitization;
- Increase the graphite crystal nucleus of molten iron, refine graphite in the matrix for more uniform distribution;
3ï¼?Fine classification
- Various product category, to provide cu
stomized carbon raising scheme
4ï¼?Cost-saving
- Reduce the usage amount of iron, increase scrap consumption, and save raw material cost.
How to use
1ï¼?For 1-5 T furnace:
- while a small amount molten iron in the furnace,
- or with some molten iron remained, add the carbon additive one-time,
- then add the other material.
which can make carbon additive fully absorbed.
2ï¼?For greater than 5 T furnace:
- mix proper carbon additive with charging material as suggested first,
- and then along with the increase of charging material gradually,
- that is, before the molten metal rising up to about 2/3 height of furnace,
- all carbon additive shall be added.
It guarantees sufficient melting & absorbing time before molten metal out, and improves the absorption of carbon.
Graphite block
Our highly purified graphite has the following advantages: good wearing resistance, high temperature resistance, good oxidation resistance and corrosion resistance. Highly purified graphite from our company has been widely used in paper making, machine, pump, pharmacy, petroleum and chemical industries.
Applications
Casting molds for railroad wheels.
Heat exchangers for chemical industries.
Electrodes and linings in some industrial furnaces (such as graphitization furnace) .
Cathodes in aluminum electrolysis cells.
Programmable properties
High thermal and chemical resistance.
Good thermal conductivity.
Low coefficient of thermal expansion.
Minimal wettability to molten metals.
