16064 MA

16000 & 16100 Series Thin Section Bearings

16064 MA 16000 & 16100 Series Thin Section Bearings
16064 MA 16000 & 16100 Series Thin Section Bearings

Image may differ from product. See technical specification for details.

Part No.
Part No. 16064 MA

Basic Information

Bearing type Ball
System of measurement Metric
Construction Single Row
Weight 34000 g
Tolerance class P6
Seal type Open
For load direction Radial

Main Dimensions

Bore diameter 320 mm
Bore diameter tolerance -0.03mm to 0
Outside diameter 480 mm
Outside diameter tolerance -0.033mm to 0
Width 50 mm
Width tolerance -0.4mm to 0

Performance

Temperature range -30° to 120 °C
Radial dynamic load rating 63171 lbf
Radial static load rating 91048 lbf
Limiting speed 1.7 X 1000 rpm
Lubrication None
Radial internal clearance CN

Materials

Ring material Chrome Steel
Ball material Chrome Steel
Cage material Stainless Steel

Environment & Compliance

REACH Compliant
ROHS Compliant
Technical Drawings No drawings available at the moment, will be launched soon
Price: $ 1737.62 / each
In Stock

Contact for Bulk Quote
  • Fast delivery
  • Free shipping on orders over $200
  • Enjoy discounts on bulk purchases
  • Secure Payment
  • Fast Global Shipping

16064 MA Bearing Product Overview & Core Advantages

The 16064 MA is a single row deep groove ball bearing engineered for high-performance applications demanding precision and reliability. Characterized by its open design and P6 tolerance class, this bearing is optimized to handle significant radial loads. Its robust construction from high-grade chrome steel ensures exceptional durability and a long operational life, making it a superior choice for demanding industrial environments where consistent performance under load is critical.

16064 MA Bearing Model Code Explained, Specifications & Naming Convention

The model number 16064 MA can be broken down as follows to understand its specific technical features:

  • 16064: The basic bearing designation, indicating a metric single row deep groove ball bearing with a 320 mm bore.
  • M: Denotes a brass cage. This cage type offers high strength and is suitable for high-speed applications and demanding operating conditions.
  • A: Indicates that the bearing has optimized internal geometry for enhanced load capacity and lower noise and vibration levels.

Key specifications derived from the code and design include: Open seal type (no contact seals for high-speed capability), P6 tolerance (higher running accuracy than standard), and CN radial internal clearance (normal clearance for general applications).

16064 MA Bearing Structural Features & Performance Benefits

The design of the 16064 MA translates directly into tangible performance benefits for engineers and machinery designers.

  • High Load Capacity: With a dynamic load rating of 63,171 lbf and a static load rating of 91,048 lbf, this bearing is built to withstand substantial radial forces, ensuring reliability in heavy-duty applications.
  • Precision & High-Speed Capability: The P6 tolerance class ensures precise dimensional accuracy and reduced runout, which is vital for smooth operation. Combined with the stainless steel cage and open design, it achieves a limiting speed of 1,700 rpm.
  • Robust Construction: The use of chrome steel for both rings and balls provides high hardness and resistance to wear, contributing to an extended service life. The brass cage (M) ensures cage integrity and reliable performance at high speeds.
  • Versatile Operating Range: The bearing is capable of operating within a temperature range of -30°C to 120°C, making it suitable for a wide array of industrial environments.

16064 MA Bearing Typical Application Areas

The combination of high load capacity, precision, and robust construction makes the 16064 MA ideal for a variety of demanding sectors. Key application areas include:

  • Industrial Gearboxes and Transmissions
  • Large Electric Motors and Generators
  • Material Handling Equipment (e.g., conveyor pulleys)
  • Construction and Mining Machinery
  • Heavy-Duty Pumps and Compressors
🔍
Cancel