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Uniform Particle Size: Ensures consistent performance and distribution.
Stable Composition: Provides reliable results with each application.
High Alloy Purity: Minimizes impurities and enhances casting quality.
Reduced Slag Inclusions: Results in cleaner iron with fewer defects during incubation.
Long Decay Resistance: Maintains effectiveness over time, ensuring sustained benefits.
Improved Graphite Structure: Strongly reduces the tendency for whitening and refines the graphite structure.
These features make inoculants ideal for general conditions and late-stage instant treatment of gray iron and ductile iron.
The application of inoculants varies based on the type of cast iron and production requirements. Common methods include:
Inoculation in the Bag: The inoculant is added directly into the ladle, followed by molten iron to achieve uniform melting before pouring.
Surface Inoculation: The inoculant is evenly sprinkled on the surface of the molten iron to activate quickly.
Inoculant Spraying: After proper dilution, the inoculant is sprayed onto the mold cavity surface using a spray gun to facilitate penetration.
Inoculation During Pouring: The inoculant is placed in the tundish, and molten iron flows over it during pouring, providing effective feeding and distribution into the mold cavity.
These practices help optimize the casting process and improve the final quality of cast iron products.
Uniform Particle Size: Ensures consistent performance and distribution.
Stable Composition: Provides reliable results with each application.
High Alloy Purity: Minimizes impurities and enhances casting quality.
Reduced Slag Inclusions: Results in cleaner iron with fewer defects during incubation.
Long Decay Resistance: Maintains effectiveness over time, ensuring sustained benefits.
Improved Graphite Structure: Strongly reduces the tendency for whitening and refines the graphite structure.
These features make inoculants ideal for general conditions and late-stage instant treatment of gray iron and ductile iron.
The application of inoculants varies based on the type of cast iron and production requirements. Common methods include:
Inoculation in the Bag: The inoculant is added directly into the ladle, followed by molten iron to achieve uniform melting before pouring.
Surface Inoculation: The inoculant is evenly sprinkled on the surface of the molten iron to activate quickly.
Inoculant Spraying: After proper dilution, the inoculant is sprayed onto the mold cavity surface using a spray gun to facilitate penetration.
Inoculation During Pouring: The inoculant is placed in the tundish, and molten iron flows over it during pouring, providing effective feeding and distribution into the mold cavity.
These practices help optimize the casting process and improve the final quality of cast iron products.
