Advantages of carbon electrode paste
Generally, it takes the form of black paste or solid blocks, and its overall advantages are very prominent.
High-temperature thermal stability
It can operate continuously at temperatures of over 1000 degrees Celsius in a blast furnace, which does not soften or fall off easily.
Dense and uniform struttura
After sintering, it has high mechanical strength and strong resistance to impact and fracture.
Stable chemical properties
It does not react with slag or high-temperature smoke.
Excellent conductivity
It has stable electrical performance, which can continuously transmit large currents.
Sforte plasticità
It can fill the electrode cylinder by itself and form naturally.
Excellent overall conductive properties
It can stably transmit the current required for smelting and ensure the continuous progress of reactions inside the furnace.
Uses of carbon electrode paste
In the field of metallurgical smelting
Conductive heating
With excellent electrical conductivity, it is self-baked to form carbon electrodes under high temperature. So it continuously and stably conducts current, which providing heat sources for the smelting of materials inside the furnace, ensuring the stable and continuous progress.
In the calcium carbide industry
Electrode consumables for the furnace body
You can use it in the electric arc furnace of the calcium carbide production plant as the core self-baking electrode material. You can form it into an overall conductive column through high-temperature sintering and solidification. It can withstand the intense heat and strong smoke conditions of the calcium carbide furnace, which ensures the continuous and large-scale production of calcium carbide.
In the field of ferroalloy smelting
High-temperature electrode carriers
You can use it in various ferroalloy smelting furnaces such as silicon iron, manganese iron, chromium iron, etc. Because the formed electrode structure is dense and resistant to slag erosion, it can withstand the scouring of the high-temperature molten material inside the furnace. Thus reducing the electrode loss rate and improving the purity and production stability of the alloy products.
In the field of new energy chemical engineering
The auxiliary conductive function of high-temperature furnaces
You can use it in the raw material smelting process of industrial silicon and polycrystalline silicon. Due to its low ash, it can effectively reduce impurities introduced, which ensures the purity of silicon materials. And then it can meet the production standards for high-purity chemical raw materials.
In the field of large-scale industrial furnaces
Continuous production consumables
You can also use it in conjunction with various types of sealed furnaces, semi-sealed furnaces, and open-type electric arc furnaces. It reduces the frequency of equipment shutdown and maintenance, which effectively improves the overall operational efficiency of industrial smelting production lines. So it is suitable for different furnace types, including temperature fields, air pressure, and sintering rhythms.