What does bearing 6201 mean? Understand its meaning here

When you come across the term "bearing 6201," it may seem like just a random number, but it actually holds specific and important meaning in the world of engineering and machinery.

Bearings are essential parts that help reduce friction between moving parts, and the number 6201 identifies a particular size and type of bearing widely used in many applications.

Greetings again, and please continue reading to understand the significance and detailed meaning behind the bearing 6201 designation.

Understanding the Basics of Bearing 6201

The 6201 bearing is a fundamental component in machinery, designed to support radial loads while enabling smooth rotational movement.

Its compact size and durable construction make it a popular choice in various applications, from automotive systems to industrial equipment.

Understanding this bearing begins with recognizing its single-row deep groove design, which allows it to handle moderate loads efficiently.

Precision engineering ensures low friction and high-speed capabilities, contributing to the longevity and reliability of the machines it serves.

Whether used in electric motors, gearboxes, or conveyors, the 6201 bearing offers a balance of performance and cost-effectiveness.

Grasping its basic structure and function is essential for anyone involved in mechanical maintenance or design, as it helps optimize machinery operation and prevent premature wear or failure.

Also Read: Decoding C3: Unveiling the Secrets of Bearing Codes.

The Significance of Bearing Number 6201

The bearing number 6201 holds significant importance in various mechanical and industrial applications due to its unique design and versatility.

This bearing is part of the 6000 series, widely recognized for its reliability and efficiency in supporting radial loads while maintaining low friction.

Its compact size makes it ideal for use in electric motors, household appliances, and automotive components, where space constraints are critical.

The 6201 bearing's ability to operate smoothly under moderate speeds and loads ensures durability and extended service life, reducing maintenance costs and downtime.

Additionally, its stKamurdized dimensions facilitate easy replacement and integration into existing machinery, making it a preferred choice among engineers and technicians worldwide.

Overall, the bearing number 6201 exemplifies a perfect balance between performance, cost, and adaptability in the bearing industry.

Decoding the Bearing 6201 Identification Code

The bearing 6201 identification code reveals essential information about this common type of ball bearing.

The first digit "6" indicates that it is a single-row deep groove ball bearing, widely used for its versatility and ability to handle radial and moderate axial loads.

The next two digits "20" specify the bearing's size series and bore diameter; in this case, "01" refers to a bore diameter of 12 mm.

This size is suitable for many mechanical applications, providing smooth rotational movement and reducing friction between moving parts.

Understanding the code helps engineers and technicians select the right bearing for their equipment, ensuring optimal performance and longevity.

The 6201 bearing is frequently found in motors, pumps, and conveyors, demonstrating its reliability and adaptability across industries.

Key Features of Bearing 6201 Explained

The Bearing 6201 is a versatile and widely used component in mechanical systems, known for its reliability and efficiency.

It features an inner diameter of 12mm, an outer diameter of 32mm, and a width of 10mm, making it suitable for various applications.

This bearing is a deep groove ball bearing, which allows it to handle both radial and axial loads effectively.

Its design includes high-quality steel balls and a sturdy cage that ensures smooth rotation and reduces friction.

Additionally, the 6201 bearing is engineered for durability, offering resistance to wear and corrosion.

These key features contribute to its popularity in automotive, industrial machinery, and household appliances, where consistent performance is crucial.

Common Applications of Bearing 6201 in Industry

The 6201 bearing is a versatile component widely used across various industries due to its reliable performance and compact size.

Found in electric motors, it ensures smooth rotation and reduces friction, boosting efficiency.

In automotive applications, the 6201 supports wheel hubs and transmission systems, enhancing durability and safety.

Manufacturing equipment also relies on this bearing for conveyor belts and machine tools, where precision and longevity are crucial.

Additionally, it plays a vital role in household appliances like washing machines and fans, providing quiet and consistent operation.

Its adaptability to different loads and speeds makes the 6201 bearing an essential part of many mechanical systems, driving productivity and minimizing maintenance needs across sectors.

How to Read Bearing 6201 Specifications Correctly

Understanding how to read bearing 6201 specifications correctly is essential for selecting the right component in mechanical applications.

The number 6201 reveals critical details: the first digit '6' indicates a single-row deep groove ball bearing, ideal for radial loads.

The '2' designates the bearing’s series, which reflects its robustness and size category.

The last two digits, '01', specify the bore diameter, calculated by multiplying by five, resulting in a 12 mm inner diameter.

Additional suffixes or prefixes in the specification might indicate special features like seals, shields, or internal clearance adjustments.

Interpreting these correctly ensures compatibility with machinery, preventing premature failure.

Always cross-reference the specification with manufacturer datasheets to confirm dimensions and performance characteristics.

This methodical approach helps in achieving reliability and efficiency in mechanical systems.

Differences Between Bearing 6201 and Other Bearings

The 6201 bearing differs from other bearings primarily in its size, design, and application versatility.

It features a specific inner diameter of 12mm, an outer diameter of 32mm, and a width of 10mm, making it ideal for medium-load applications.

Unlike larger or smaller bearings, the 6201 offers a balanced combination of compactness and durability.

Its deep groove design enhances its ability to handle both radial and axial loads more efficiently than some specialized bearings.

Additionally, 6201 bearings often have stKamurdized dimensions, facilitating easy replacement and compatibility across various machinery.

In contrast, other bearings, such as angular contact or thrust bearings, are tailored for specific directional loads or higher precision, which the 6201 may not accommodate.

This distinct characteristic set allows the 6201 bearing to serve as a reliable, general-purpose option in many mechanical systems.

Materials Used in Manufacturing Bearing 6201

Bearing 6201 is crafted from specialized materials to ensure durability and performance.

The most common material is high-quality chrome steel, known for its excellent hardness and resistance to wear, which guarantees longevity under high-stress conditions.

Additionally, stainless steel options provide corrosion resistance, making the bearing suitable for harsh environments.

Some manufacturers incorporate ceramics, such as silicon nitride, to reduce weight and enhance speed capabilities, offering superior thermal stability.

The cages or retainers within the bearing are often made from brass, steel, or polymer, each chosen based on application requirements like noise reduction or chemical resistance.

Lubrication materials, though not part of the bearing itself, critically affect performance by minimizing friction.

Overall, these diverse materials combine to create a bearing that balances strength, reliability, and efficiency in various industrial settings.

Load Capacities Associated with Bearing 6201

The load capacities associated with bearing 6201 are critical for its application in various mechanical systems.

This deep groove ball bearing is designed to handle both radial and axial loads efficiently, making it versatile for numerous industrial uses.

The dynamic load capacity typically ranges around 6,300 Newtons, which represents the bearing’s ability to endure variable forces during operation without premature failure.

Meanwhile, the static load capacity is approximately 3,200 Newtons, indicating the maximum load the bearing can withstand when stationary without permanent deformation.

These load ratings ensure reliable performance under different stress conditions, contributing to the bearing’s longevity and operational stability.

Understanding these capacities is essential for engineers selecting bearings to match specific load requirements in machinery.

Bearing 6201: Dimensions and Tolerances Overview

The Bearing 6201 is a widely used deep groove ball bearing known for its versatility and reliability in various mechanical applications.

It features precise dimensions, typically with an inner diameter of 12 mm, an outer diameter of 32 mm, and a width of 10 mm, making it suitable for medium load conditions and moderate speeds.

The tolerances of Bearing 6201 conform to international stKamurds, ensuring proper fit and function within assemblies.

These tolerances control factors such as radial play, axial clearance, and roundness, which are critical for optimal performance and longevity.

Manufacturers often specify these tolerances to maintain consistency and interchangeability, contributing to reduced wear and enhanced operational stability in machinery where this bearing is employed.