The TIMKEN 470380 Tapered Roller Bearing is engineered specifically for extreme radial and axial load combinations typical in heavy industrial machinery. Constructed from high-purity, case-carburized steel (52100 standard equivalent), this bearing features geometrically optimized raceways and precision-matched rollers, ensuring maximized contact stress distribution and minimizing friction under continuous operation. Its design promotes superior thermal management and structural rigidity, making it ideal for high-duty cycle applications where reliability and structural integrity are paramount. Compliant with international ISO dimension standards, the 470380 guarantees straightforward integration and reliable performance in critical rotating equipment.
Choosing the TIMKEN 470380 translates directly into reduced total cost of ownership (TCO) through minimized unplanned downtime and extended service intervals. Recommended for use in large industrial gearboxes, heavy-duty pumps, specialized construction equipment, and high-speed primary metal rolling mills, this bearing set delivers unparalleled longevity and efficiency. TIMKEN's commitment to precision manufacturing ensures that this component maintains tighter tolerances and lower vibration characteristics than standard alternatives, offering operators smooth, quiet operation even in the most demanding environments. Invest in TIMKEN reliability to protect your capital assets.
Key Features
Optimized Roller Geometry: Ensures even load distribution and minimizes edge stress.
Case-Carburized Raceway Surfaces: Provides exceptional hardness for high wear resistance while maintaining a ductile core for shock load capacity.
High Radial and Axial Load Capacity: Designed to handle simultaneously applied thrust and radial forces common in industrial drive systems.
Dimensionally Stable: Heat-treated to ensure consistent performance across wide operating temperature ranges (-40°C to +150°C).
Enhanced Fatigue Life: Exceeds standard industry life ratings, reducing MTBF (Mean Time Between Failures).
