Brand: RBC
16002 DS TNT G Deep Groove Ball Bearing (15x32x8mm) | Extra-Light Series with High-Speed Polyamide Cage
The 16002 DS TNT G bearing is engineered for demanding applications requiring an exceptional balance of low weight and high dynamic performance. Part of the extra-light 16000 series, this bearing features a 15mm bore, 32mm outer diameter, and an 8mm width. The critical designation 'TNT G' refers to the robust, glass fiber-reinforced polyamide 66 cage, which significantly reduces rotational inertia, operates quietly, and maintains stability at higher operational temperatures and speeds than standard steel cages. The 'DS' suffix indicates a highly effective single contact rubber seal, providing superior protection against moisture and contaminants on one side while allowing for customized lubrication or easy regreasing access on the open side. This construction ensures long service life and reliable operation in challenging environments.
Optimized for use in high-speed electric motors, specialized robotics, medical diagnostic equipment, and light transmission systems, the 16002 DS TNT G delivers exceptional power density within a compact footprint. Its precise manufacturing tolerances (implied by 'G' or standard C0 clearance) guarantee reliable alignment and minimal friction. Choosing this RBC bearing ensures reduced maintenance cycles and maximized uptime, leveraging advanced materials technology (TNT cage) for applications where traditional bearings would struggle with heat buildup or weight limitations. This product offers superior performance and durability over generic alternatives.
Key Features
Extra-light 16000 Series profile for applications with strict weight constraints.
TNT Polyamide Cage facilitates high limiting speeds and reduced operational noise.
Single DS Contact Seal provides excellent ingress protection while maintaining application flexibility.
Low friction and quiet running characteristics suitable for electric motors and HVAC systems.
High static and dynamic load ratings relative to its compact size.
