Barras Elevadoras para Molino SAG | ATF

SAG Mill Lifter Bars: Controlling Heavy Charge Trajectory

SAG mill lifter bars face the most demanding charge-lifting duty in mineral processing: raising a mixed charge of run-of-mine ore chunks up to 300 mm, forged steel grinding balls of 100–150 mm diameter, and abrasive slurry to create the cascading and cataracting motion essential for efficient semi-autogenous grinding. Lifter bar profile—defined by height (200–350 mm), face angle (10–20 degrees from radial), and circumferential spacing—directly determines whether the charge achieves effective high-energy impact breakage at the toe or degrades into inefficient low-energy tumbling. ATF manufactures SAG mill lifter bars from ASTM A532 chrome-moly steel at 350–500 BHN and bimetallic composite castings with a 600+ BHN hard wear face bonded to a tough 350 BHN core, providing flexibility to match material selection to the specific balance of abrasion and impact severity in each application.

SAG mill lifters require significantly taller profiles than ball mill lifters—typically 200 to 350 mm versus 75 to 150 mm—to engage and lift the much heavier mixed charge. The higher hardness range of 350–500 BHN resists the severe sliding abrasion caused by large ore pieces dragging across the lifter face during each mill revolution, while maintaining sufficient fracture toughness to survive repeated high-energy impacts from balls and large ore. Face angles are optimised for aggressive charge lifting while the back (release) angle is designed to minimise direct impact on lifter tops as the charge falls. ATF engineers lifter profiles for each specific mill geometry—including diameter, length, and head configuration—charge composition (ore-to-ball ratio, total charge volume), rotational speed (68–76% of critical), and grinding circuit objectives. Row counts typically range from 24 to 48 depending on mill diameter, with spacing calculated to balance charge lifting efficiency against the cascading zone between lifters.