In the field of steel refining, a structurally innovative "double-layer solid core pure calcium wire" is becoming a technological focus to achieve more thorough calcium treatment effects. This product adopts a unique double-layer steel strip composite design - the inner layer of steel strip is directly wrapped with high-purity calcium wire, and the outer layer of steel strip is tightly clamped and wrapped through edge rolling process, forming a thick and sturdy overall structure. It is specifically used for calcium treatment process after steel refining, especially suitable for deoxidation and inclusion denaturation of aluminum killed steel.
Traditional calcium wires may face problems such as insufficient penetration depth and premature calcium gasification during feeding. The core advantage of this design is that the thickened composite layer significantly enhances the rigidity and density of the wire body, allowing it to resist the buoyancy and erosion of the molten steel when fed at a stable speed of 60-90 meters per minute, and insert deeper into the molten steel. This not only ensures the release and reaction of calcium at the bottom of the molten pool, greatly improving the utilization and refining effect of calcium, but also its excellent flexibility and tight bite ensure low resistance, continuous feeding, and precise measurement during high-speed wire feeding.
This dual layer structure that combines rigidity and flexibility is a targeted optimization of calcium treatment wire feeding technology. It directly targets the pain points of the manufacturing process, and through innovative physical structures, enables calcium elements to play a more effective role in molten steel, providing a more reliable technical means for producing high-quality steel with high cleanliness.Double layer solid core pure calcium wire achieves deeper melt pool penetration through innovative design
In the field of steel refining, a structurally innovative "double-layer solid core pure calcium wire" is becoming a technological focus to achieve more thorough calcium treatment effects. This product adopts a unique double-layer steel strip composite design - the inner layer of steel strip is directly wrapped with high-purity calcium wire, and the outer layer of steel strip is tightly clamped and wrapped through edge rolling process, forming a thick and sturdy overall structure. It is specifically used for calcium treatment process after steel refining, especially suitable for deoxidation and inclusion denaturation of aluminum killed steel.
Traditional calcium wires may face problems such as insufficient penetration depth and premature calcium gasification during feeding. The core advantage of this design is that the thickened composite layer significantly enhances the rigidity and density of the wire body, allowing it to resist the buoyancy and erosion of the molten steel when fed at a stable speed of 60-90 meters per minute, and insert deeper into the molten steel. This not only ensures the release and reaction of calcium at the bottom of the molten pool, greatly improving the utilization and refining effect of calcium, but also its excellent flexibility and tight bite ensure low resistance, continuous feeding, and precise measurement during high-speed wire feeding.
This dual layer structure that combines rigidity and flexibility is a targeted optimization of calcium treatment wire feeding technology. It directly targets the pain points of the manufacturing process, and through innovative physical structures, enables calcium elements to play a more effective role in molten steel, providing a more reliable technical means for producing high-quality steel with high cleanliness.
Traditional calcium wires may face problems such as insufficient penetration depth and premature calcium gasification during feeding. The core advantage of this design is that the thickened composite layer significantly enhances the rigidity and density of the wire body, allowing it to resist the buoyancy and erosion of the molten steel when fed at a stable speed of 60-90 meters per minute, and insert deeper into the molten steel. This not only ensures the release and reaction of calcium at the bottom of the molten pool, greatly improving the utilization and refining effect of calcium, but also its excellent flexibility and tight bite ensure low resistance, continuous feeding, and precise measurement during high-speed wire feeding.
This dual layer structure that combines rigidity and flexibility is a targeted optimization of calcium treatment wire feeding technology. It directly targets the pain points of the manufacturing process, and through innovative physical structures, enables calcium elements to play a more effective role in molten steel, providing a more reliable technical means for producing high-quality steel with high cleanliness.Double layer solid core pure calcium wire achieves deeper melt pool penetration through innovative design
In the field of steel refining, a structurally innovative "double-layer solid core pure calcium wire" is becoming a technological focus to achieve more thorough calcium treatment effects. This product adopts a unique double-layer steel strip composite design - the inner layer of steel strip is directly wrapped with high-purity calcium wire, and the outer layer of steel strip is tightly clamped and wrapped through edge rolling process, forming a thick and sturdy overall structure. It is specifically used for calcium treatment process after steel refining, especially suitable for deoxidation and inclusion denaturation of aluminum killed steel.
Traditional calcium wires may face problems such as insufficient penetration depth and premature calcium gasification during feeding. The core advantage of this design is that the thickened composite layer significantly enhances the rigidity and density of the wire body, allowing it to resist the buoyancy and erosion of the molten steel when fed at a stable speed of 60-90 meters per minute, and insert deeper into the molten steel. This not only ensures the release and reaction of calcium at the bottom of the molten pool, greatly improving the utilization and refining effect of calcium, but also its excellent flexibility and tight bite ensure low resistance, continuous feeding, and precise measurement during high-speed wire feeding.
This dual layer structure that combines rigidity and flexibility is a targeted optimization of calcium treatment wire feeding technology. It directly targets the pain points of the manufacturing process, and through innovative physical structures, enables calcium elements to play a more effective role in molten steel, providing a more reliable technical means for producing high-quality steel with high cleanliness.
