high melting point grain refiner

Aluminum Titanium Boron (Coil) (Model: AlTi5B1, AlTi3B1, AlTi5B0.2)

Products Al-Ti-B Master Alloy (Chemical Composition %) Ti B Fe Si V Impurities (total) Al AlTi5B1 4.5-5.5% 0.8-1.2% 0.30%max 0.20%max 0.20%max 0.10%max Balance AlTi5B0.2 4.5-5.5% 0.15-0.25% 0.30%max 0.20%max 0.20%max 0.10%max Balance AlTi3B1 2.5-3.5% 0.8-1.2% 0.30%max 0.20%max 0.20%max 0.10%max Balance 1. Properties Features (1) A lot of dispersed TiB2, TiAl3, AlB2 and TiC corpuscles with high melting point are produced in the molten Aluminum as foreign crystalline cores when

Aluminum Titanium Boron (Stick) (Model: AlTi5B1, AlTi3B1, AlTi5B0.2)

Products Al-Ti-B Master Alloy (Chemical Composition %) Ti B Fe Si V Impurities (total) Al AlTi5B1 4.5-5.5% 0.8-1.2% 0.30%max 0.20%max 0.20%max 0.10%max Balance AlTi5B0.2 4.5-5.5% 0.15-0.25% 0.30%max 0.20%max 0.20%max 0.10%max Balance AlTi3B1 2.5-3.5% 0.8-1.2% 0.30%max 0.20%max 0.20%max 0.10%max Balance 1. Properties Features (1) A lot of dispersed TiB2, TiAl3, AlB2 and TiC corpuscles with high melting point are produced in the molten Aluminum as foreign crystalline cores when

Aluminum Boron Master Alloy (Model: AlB3, AlB5)

1.Properties & Application: (1). Boron content: 2.53.5% for AlB3, 4.55.5% for AlB5, 7.58.5% for AlB8 . Used for adding boron element to Al alloy or grain refining of pure aluminum or aluminum alloy in the course of smelting. (2). A lot of dispersed AlB2 corpuscles with high melting point are produced in the process as foreign crystalline cores when these corpuscles coagulate, notably refining the crystalline configuration of the cast ingots, improving the mechanic,