In recent years, with the rapid development of the global new energy industry and the deepening of industrialization, aluminum carbon, as a key material in electrolytic aluminum production, has witnessed a continuous growth in market demand.
Aluminum carbon materials are one of the pillar materials in the aluminum electrolysis industry. According to their different positions and roles in the electrolytic cell, they can be divided into two major categories: anode materials and cathode materials.
Carbon Materials for Aluminum
Anode Materials for Aluminum
Anode paste: Used in electrolytic cells of side-inserted self-baking anode and top-inserted self-baking anode types.
Anode carbon block: Used in pre-baked anode electrolytic cells.
Spent anode: The residual part of the anode carbon block after use.
Cathode Materials for Aluminum
Cathode carbon block (bottom block): Used for building the bottom of electrolytic cells.
Side carbon block: Used for building the side parts of electrolytic cells.
Cathode paste: Used for joints of cathode carbon blocks, side carbon blocks, etc.
Prebaked anode is a typical representative of carbon anode materials for aluminum. It is a carbon block made by roasting, with petroleum coke, pitch coke, etc., as aggregates and coal tar pitch as a binder, and has a stable geometric shape. The prebaked anode not only acts as a conductor but also participates in electrochemical reactions, during which it gets consumed. Therefore, the quality of prebaked anodes has a significant impact on the quality of primary aluminum.
Driven by multiple factors, the global demand for prebaked anodes is showing a steady growth trend.
Industry expansion: Drives the increase in demand for prebaked anodes.
Technological progress: Promotes the growth of market demand for high-performance prebaked anodes.
Environmental policies: Encourages enterprises to adopt more environmentally friendly and efficient prebaked anode products.
Equipment Selection and Technical Advantages
Reliable and Proven Equipment
Four decades of expertise in mill manufacturing with four generations of iterative upgrades.
High Grinding Efficiency
Curved blade design increases the grinding area, boosting processing efficiency.
Integrated Bevel Gear Transmission
Features a seamless bevel gear drive and drag-free air inlet volute, optimizing material flow and reducing energy consumption.
Thin Oil Lubrication System
Low resistance operation with stable temperature control, extending oil change intervals up to 4 months and minimizing maintenance requirements.
Multifunctional Integration
Combines crushing, grinding, drying, powder classification, and conveying into a single system.
High-Efficiency Grinding
Specialized roller and grinding table design with hydraulic automatic pressurization system, maximizing grinding area and enhancing processing efficiency.
Intelligent Control System
Equipped with an automated control system for simplified operation and reduced maintenance costs.
Stable Environmental Performance
Fully sealed structure operating under negative pressure to eliminate dust leakage.
Aluminum carbon materials are one of the pillar materials in the aluminum electrolysis industry. According to their different positions and roles in the electrolytic cell, they can be divided into two major categories: anode materials and cathode materials.
Carbon Materials for Aluminum
Anode Materials for Aluminum
Anode paste: Used in electrolytic cells of side-inserted self-baking anode and top-inserted self-baking anode types.
Anode carbon block: Used in pre-baked anode electrolytic cells.
Spent anode: The residual part of the anode carbon block after use.
Cathode Materials for Aluminum
Cathode carbon block (bottom block): Used for building the bottom of electrolytic cells.
Side carbon block: Used for building the side parts of electrolytic cells.
Cathode paste: Used for joints of cathode carbon blocks, side carbon blocks, etc.
Prebaked anode is a typical representative of carbon anode materials for aluminum. It is a carbon block made by roasting, with petroleum coke, pitch coke, etc., as aggregates and coal tar pitch as a binder, and has a stable geometric shape. The prebaked anode not only acts as a conductor but also participates in electrochemical reactions, during which it gets consumed. Therefore, the quality of prebaked anodes has a significant impact on the quality of primary aluminum.
Driven by multiple factors, the global demand for prebaked anodes is showing a steady growth trend.
Industry expansion: Drives the increase in demand for prebaked anodes.
Technological progress: Promotes the growth of market demand for high-performance prebaked anodes.
Environmental policies: Encourages enterprises to adopt more environmentally friendly and efficient prebaked anode products.
Equipment Selection and Technical Advantages
Reliable and Proven Equipment
Four decades of expertise in mill manufacturing with four generations of iterative upgrades.
High Grinding Efficiency
Curved blade design increases the grinding area, boosting processing efficiency.
Integrated Bevel Gear Transmission
Features a seamless bevel gear drive and drag-free air inlet volute, optimizing material flow and reducing energy consumption.
Thin Oil Lubrication System
Low resistance operation with stable temperature control, extending oil change intervals up to 4 months and minimizing maintenance requirements.
Multifunctional Integration
Combines crushing, grinding, drying, powder classification, and conveying into a single system.
High-Efficiency Grinding
Specialized roller and grinding table design with hydraulic automatic pressurization system, maximizing grinding area and enhancing processing efficiency.
Intelligent Control System
Equipped with an automated control system for simplified operation and reduced maintenance costs.
Stable Environmental Performance
Fully sealed structure operating under negative pressure to eliminate dust leakage.
