Durable Drawn Cup Needle Roller Bearing for Compact Radial Loads
The BA 0059 (SCE 59) YFB drawn cup needle roller bearing is built to handle radial loads in slim housings used throughout Pakistan’s machinery and automation industries. Its thin-walled drawn cup outer ring and accurately guided needle rollers provide reliable, low-friction rotation where conventional bearings cannot fit. As the exclusive owner and distributor of YFB brand in Pakistan, Abdul Traders supplies original BA Series bearings at attractive prices for CNC, textile, and general industrial applications in Lahore, Karachi, and Faisalabad.
Key Features
Drawn cup needle roller bearing engineered for compact radial load applications requiring a slim outer ring and dependable performance. Genuine YFB design with exclusive Abdul Traders supply ensures stable running, low noise, and long service life. BA 0059 offers a strong combination of radial capacity and minimal outside diameter, supporting efficient, space-saving mechanical layouts.
Technical Specifications
BA 0059 (SCE 59) is produced from high-quality bearing steel with controlled heat treatment and precise cup forming. The drawn shell is designed for direct press-fit installation into the housing, providing secure seating and accurate alignment. High-grade needle rollers distribute radial loads uniformly, helping to minimise wear and maintain reliable operation in continuous or high-cycle duty across Pakistan’s industrial facilities.
Industrial Applications
Commonly installed in compact gearboxes, automation systems, textile machines, and CNC equipment where a thin radial bearing is required. Preferred by machine builders and repair workshops in Lahore, Karachi, Faisalabad, and other industrial hubs that depend on drawn cup needle roller bearings for precise, efficient motion in restricted housings.
Contact Information
WhatsApp: +86 183 0611 5059
Phone: 042-37653390 | 042-37651231
Website: abdultraders.pk
Choose Abdul Traders for original YFB drawn cup needle roller bearings that keep your compact radial systems running efficiently.
