Brand: TIMKEN
7352 Single Row Angular Contact Ball Bearing - 260mm Bore | High-Speed Precision and Axial Rigidity
The Model 7352 High-Precision Single Row Angular Contact Ball Bearing is engineered for critical industrial applications requiring exceptional operational speed and high axial rigidity in one direction. Utilizing a standardized 25° contact angle, this bearing effectively manages combined radial and heavy unidirectional axial loads simultaneously. Its internal geometry features optimized raceway profiles and a precision-machined brass cage (M designation) which minimizes friction heat generation, ensuring stable operation and extended grease life even under high-load oscillation or continuous maximum rotational velocity. Manufactured using premium, high-purity steel and subjected to strict dimensional tolerance testing, the 7352 guarantees reliability and dimensional stability critical for sensitive rotating equipment.
Designed to excel in machine tool spindles, large industrial pumps, high-speed gearboxes, and precision woodworking equipment, the 7352 significantly contributes to reducing Total Cost of Ownership (TCO) through minimized downtime and predictable service intervals. The robust design handles thermal expansion and dynamic misalignment better than conventional deep groove bearings, providing consistent positional accuracy. As a direct replacement or upgrade for demanding OEM specifications, selecting the 7352 ensures unparalleled operational performance, maximized mean time between failures (MTBF), and adherence to the stringent quality standards expected in heavy-duty industrial environments.
Key Features
Optimized 25° Contact Angle for superior combined load capacity and axial rigidity.
Precision-Machined Brass Cage (M) ensures exceptional thermal stability and reduced friction at high speeds.
High-purity steel construction maximizes fatigue life and shock load resistance.
Designed for sustained high-speed operations, ideal for primary machine tool spindle applications.
Low friction torque geometry results in reduced operational temperatures and enhanced energy efficiency.
Exceptional dimensional stability ensures precision positioning in critical equipment.
