Brand: SKF
2212 E TN9 Self-Aligning Ball Bearing | 60x110x30mm | High Load, Polyamide Cage
The 2212 E TN9 is a high-performance double-row self-aligning ball bearing engineered for applications where angular misalignment between the shaft and housing bore may occur. The 'E' designation signifies an optimized internal geometry and enhanced design, resulting in a substantially increased dynamic load capacity compared to standard 2212 variants. This bearing compensates effortlessly for static and dynamic misalignment, ensuring smooth operation and reducing stress on related components. Key features include the highly durable TN9 glass fiber reinforced polyamide 6,6 cage, which offers reduced friction, lower operating temperatures, and superior inertia characteristics, making the 2212 E TN9 an ideal choice for moderate to high-speed industrial operations.
Designed for demanding operational environments, this 2212 E TN9 bearing provides exceptional reliability in heavy industrial machinery, high-speed fans, textile equipment, and paper processing systems. Its inherent self-aligning capability drastically simplifies mounting procedures and minimizes the risk of premature failure due to installation errors or shaft deflection under load. Investing in the 2212 E TN9 guarantees reduced maintenance frequency, lower energy consumption due to minimized friction, and maximized uptime, securing the long-term operational efficiency critical for industrial profitability. This bearing meets strict quality standards, delivering predictable, reliable performance across its service life.
Key Features
Enhanced 'E' design for significantly increased dynamic load capacity and extended service life.
Self-aligning capability compensates for shaft deflection and mounting errors (up to 3° misalignment).
TN9 glass fiber reinforced polyamide cage minimizes friction and noise, suitable for higher speeds.
Exceptional reliability in applications prone to misalignment or varying operational loads.
Low friction design leads to reduced heat generation and improved energy efficiency.
