MBS 909047 High-Capacity Tapered Roller Bearing | 90x160x40 mm | Severe Load Industrial Machinery
The MBS 909047 is a premier single-row tapered roller bearing engineered for the most demanding applications requiring high combined radial and axial load capacity. Manufactured from vacuum-degassed, high-carbon chromium steel (SAE 52100 equivalent), this bearing features geometrically optimized raceway profiles and robust roller configurations, ensuring superior load distribution and minimal stress concentration. The design incorporates a precision-machined steel cage providing excellent roller guidance under high operating temperatures and speeds (up to 3,800 RPM limit). With precise boundary dimensions (90mm bore, 160mm outer diameter, 40mm width), the 909047 guarantees reliable fitment and exceptional performance in heavy industrial power transmission systems, offering high stiffness and low running friction.
Selecting the MBS 909047 significantly enhances operational reliability and extends maintenance cycles in critical equipment such as heavy-duty gear drives, rolling mill stands, specialized construction equipment, and large industrial pumps. This bearing excels in environments characterized by shock loads, persistent vibration, and high duty cycles. As a specialized industrial component, it is designed for ease of installation and standardized compatibility, ensuring reduced Mean Time To Repair (MTTR). Invest in the 909047 to maximize throughput and minimize unscheduled downtime, validating its role as a key component for severe-service industrial applications.
Key Features
High Dynamic and Static Load Capacity (Cr=195 kN) suitable for shock-loaded applications.
Optimized Roller Profile for even stress distribution and extended bearing service life.
Case Hardened Components for exceptional wear resistance and durability.
Designed for Combined Radial and High Axial Loads in one direction.
Precision ISO Class P6 manufacturing tolerance standard.
Reduced Friction Torque under normal operating conditions for energy efficiency.
