What is the bearing code 6004 for? Here's its function

The bearing code 6004 is a commonly used identifier in the world of mechanical engineering and machinery.

Bearings with this code are designed to support rotational or linear movement while reducing friction between moving parts.

Understanding the function of the 6004 bearing can help you select the right component for various applications, from automotive systems to industrial machinery.

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Understanding the Meaning of Bearing Code 6004

The bearing code 6004 is a stKamurd designation used in the world of mechanical engineering and machinery to identify a specific type of deep groove ball bearing.

This code provides important information about the bearing's size and design characteristics.

The first digit ‘6’ indicates that it belongs to the single-row deep groove ball bearing series, known for their versatility and ability to handle radial and moderate axial loads.

The following three digits ‘004’ represent the bearing’s bore diameter, which in this case is 20 millimeters.

These bearings are widely used in various applications such as electric motors, automotive components, and industrial machinery due to their durability, efficiency, and ease of maintenance.

Understanding this code helps engineers and technicians select the right bearing for their needs, ensuring optimal performance and longevity of mechanical systems.

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

Key Features of Bearing Code 6004 Explained

The bearing code 6004 is widely recognized for its versatility and efficiency in various mechanical applications.

One of its key features is its stKamurd size, which makes it compatible with many machines and devices, providing ease of replacement and maintenance.

This bearing has an inner diameter of 20mm, an outer diameter of 42mm, and a width of 12mm, which balances strength and compactness.

It typically uses deep groove ball bearings, allowing it to handle both radial and axial loads effectively, making it suitable for high-speed operations.

The 6004 bearing is often manufactured with high-quality steel, ensuring durability, resistance to wear, and long service life.

Additionally, many 6004 bearings come with seals or shields to protect against dust and contaminants, enhancing reliability.

Its low friction design helps reduce energy consumption and heat generation during use.

Overall, the 6004 bearing is valued for its robust construction, precise engineering, and adaptability, making it a popular choice in automotive, industrial, and consumer equipment sectors.

Applications of Bearing Code 6004 in Machinery

The 6004 bearing code finds extensive application in various types of machinery due to its versatile size and load capacity.

Commonly used in electric motors, automotive components, and industrial machines, these bearings support radial and axial loads efficiently.

Their compact design allows integration into small spaces, making them ideal for precision instruments and household appliances.

Additionally, 6004 bearings contribute to smoother rotation, reducing friction and wear, which enhances machine longevity and performance.

Engineers often select this bearing for conveyor systems, pumps, and gearboxes, where reliable operation is crucial.

Its balanced combination of durability and affordability ensures widespread adoption across manufacturing sectors.

As a result, the 6004 bearing plays a vital role in maintaining machinery efficiency and minimizing downtime in various industrial applications.

How Bearing Code 6004 Supports Rotational Movement

The bearing code 6004 plays a crucial role in supporting smooth rotational movement by efficiently reducing friction between moving parts.

Designed with precision, this deep groove ball bearing allows shafts to rotate freely while maintaining alignment and load support.

Its compact size and robust construction enable it to withstand radial and moderate axial loads, making it ideal for various mechanical applications.

The steel balls inside the bearing roll between inner and outer races, minimizing resistance and wear.

This seamless motion reduces energy loss and enhances the lifespan of machinery.

By ensuring stable and reliable rotation, the 6004 bearing code contributes to the optimal performance of motors, gearboxes, and other rotating equipment, making it an essential component in engineering and manufacturing industries worldwide.

Differences Between Bearing Code 6004 and Other Bearings

The 6004 bearing code distinguishes itself through specific dimensions and load capacities, setting it apart from other bearings.

Unlike stKamurd bearings, the 6004 model features an inner diameter of 20mm, an outer diameter of 47mm, and a width of 14mm, which caters to moderate-load applications with precision.

Its design typically supports higher rotational speeds while maintaining durability, making it ideal for automotive and industrial machines.

In contrast, other bearings may vary widely in size, load tolerance, and sealing types, affecting their suitability for different environments and mechanical stresses.

The 6004’s balance of compact size and robust performance often leads engineers to select it over bulkier or less speed-optimized bearings.

Understanding these nuanced differences helps ensure optimal bearing choice for specific engineering needs.

Materials Used in Manufacturing Bearing Code 6004

The manufacturing of bearing code 6004 involves the use of high-quality materials to ensure durability and optimal performance.

Typically, the inner and outer rings, as well as the rolling elements, are crafted from chrome steel, known for its excellent hardness and wear resistance.

In some cases, stainless steel is utilized to enhance corrosion resistance, especially in environments prone to moisture or chemicals.

Cage materials vary, including pressed steel, brass, or synthetic polymers, each chosen to balance strength and reduce friction.

The selection of these materials directly influences the bearing’s lifespan, load capacity, and operational efficiency.

Advanced heat treatment processes further strengthen the metal components, improving fatigue life.

Overall, the combination of these carefully selected materials and precise manufacturing techniques ensures that bearing code 6004 meets demanding industrial stKamurds and performs reliably under various conditions.

Load Capacity Specifications of Bearing Code 6004

The bearing code 6004 refers to a specific type of deep groove ball bearing commonly used in various mechanical applications.

This bearing typically has an inner diameter of 20 mm, an outer diameter of 42 mm, and a width of 12 mm.

The load capacity of a 6004 bearing is defined by its dynamic and static load ratings, which indicate the maximum loads the bearing can endure during operation without premature failure.

Dynamic load capacity relates to the bearing's ability to handle rotating loads, while static load capacity refers to its resistance to stationary loads.

These specifications ensure the bearing can support radial and axial forces efficiently, contributing to the smooth functioning of machinery.

Understanding these load capacities is crucial for selecting the right bearing to match the operational demands and prolong equipment life.

Common Industries Utilizing Bearing Code 6004

The bearing code 6004 is widely embraced across various industries due to its versatility and reliability in handling moderate loads and speeds.

In automotive manufacturing, it is essential for wheel hubs and engine components, providing smooth rotation and durability.

The electrical industry incorporates this bearing type in small motors and household appliances, ensuring quiet and efficient operation.

Industrial machinery also relies on 6004 bearings for conveyor belts and gearboxes, where consistent performance is critical.

Additionally, the construction sector uses these bearings in power tools and heavy equipment to withstand tough conditions.

Even in robotics, 6004 bearings enable precise movement and stability.

This broad application spectrum highlights the bearing's adaptability, making it a fundamental component in many mechanical systems worldwide.

Maintenance Tips for Bearing Code 6004 Longevity

To ensure the longevity of bearing code 6004, regular maintenance is essential.

Start by keeping the bearing clean and free from contaminants such as dust, dirt, and moisture, which can cause premature wear.

Proper lubrication plays a vital role; use the recommended grease or oil and reapply it at appropriate intervals to reduce friction and prevent overheating.

Always check for signs of damage or unusual noise during operation, as these can indicate early failure.

Avoid excessive loads and misalignment by ensuring correct installation and balanced loads on the bearing.

Storing bearings in a dry, temperature-controlled environment when not in use also helps prevent corrosion.

By following these simple steps, the lifespan of bearing code 6004 can be significantly extended, improving machine performance and reducing downtime.

How to Identify a Genuine Bearing Code 6004

To identify a genuine bearing code 6004, start by examining the bearing's surface for clear and precise engravings of the code, as authentic bearings usually have clean, sharp markings.

Check the packaging for proper branding, including logos, model numbers, and batch details that match the manufacturer's specifications.

Verify the weight and dimensions against official product data sheets, since counterfeit bearings often differ slightly in size or weight.

Additionally, genuine bearings typically have smooth, quiet rotation without unusual resistance or noise, indicating quality manufacturing.

Lastly, purchase from reputable suppliers or authorized dealers to ensure authenticity and avoid counterfeit products.

Ultimately

The bearing code 6004 is commonly used to identify a specific type of deep groove ball bearing designed for moderate loads and high-speed applications, making it ideal for various machinery and automotive parts.

Its function is to reduce friction between moving parts, ensuring smooth operation and extending the lifespan of equipment.

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