Brand: TIMKEN
TIMKEN SET 415 Tapered Roller Bearing Assembly (1.750" Bore) - Heavy Duty Industrial Grade
The TIMKEN SET 415 is a high-performance Tapered Roller Bearing assembly, meticulously engineered to manage combined heavy radial and thrust loads simultaneously. This set consists of the JLM714110 cone (inner ring assembly) and the JLM714149 cup (outer ring), designed for optimal line contact between the rollers and raceways. Built using case-carburized, high-purity steel, the SET 415 maintains exceptional fatigue life and operational stability under demanding industrial conditions. Its geometry ensures precise alignment and minimizes friction, making it a reliable choice for critical rotating equipment that requires tight tolerances and superior load distribution.
Ideal for applications in Class 8 truck differentials, heavy-duty industrial gearboxes, construction equipment axles, and agricultural machinery hubs, the SET 415 offers extended service life and reduced maintenance downtime. Choosing TIMKEN guarantees access to proprietary manufacturing precision and global quality standards, ensuring maximum reliability where standard bearings often fail. This assembly is designed for easy mounting and dismounting, optimizing installation efficiency while delivering the robustness necessary to handle shock loads and variable speed operations in harsh environments.
Key Features
Optimized Roller Profile: Ensures maximum load distribution and reduced edge stress, extending operational life.
Case-Carburized Steel Construction: Provides a hard outer surface for high wear resistance and a tough, shock-resistant core.
High Radial and Axial Load Capacity: Designed to efficiently manage complex load combinations typical in vehicle and industrial transmissions.
Interchangeable Industry Standard: Directly replaces competitor parts designated for the same size specification (e.g., Koyo, SKF, FAG equivalent sets).
Precision Timken Geometry: Engineered for low torque operation and minimized heat generation, improving overall system efficiency.
