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ball bearing knife blade

 Nide team could manufacture ball bearing as per customer’s drawing and samples.

If customer only has samples, we could also design drawing fo r our customer.

We also provide customized service.

Our ball bearing is widely applied the different industrials.

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Details

Ningbo Haishu Nide International Co., Ltd was established in 2010. We produce insulation paper,thermal protector,fan,carbon brush,commutator,shaft,motor cover and lamination and other products. Our unwavering commitment to quality has been recognized by the National Testing Center and the Zhejiang Provincial Testing Center. We adhere to ISO 9001:2015 and CE statior standards, prioritize quality, and operate with integrity.

We prioritize quality and first-class service, constantly pursuing perfection. We have a deep understanding of the precise needs of our customers, and our important motor component manufacturing network and strict quality control system enable us to provide high-quality products to customers at reasonable prices.

 

 

Parameter Information
Product Name ball bearing knife blade
Brand Name NIDE
Place of Origin Ningbo,China
Material stainless steel, etc.
Structure Deep Groove
Color Customized Color
Delivery Time 5-7days
Port Ningbo/Shanghai
Export region Europe,America,Africa
Export Country India,Brazil,South Korea,Cyprus,Puerto Rico,Latvia,Vanuatu...etc
Application small rotary motors,fan electric motor, etc.
OEM/ODM Yes
Size Customized size
Stock In Stock
Feature Low Noise,Good wear resistance...etc
MOQ 10 pieeces(Specific according to the model)
Certification ISO9001,ISO9001:2015 certificate,CE-stator coil winding inserting machine,etc
Supply Ability 100000-500000 Piece/Pieces per Month
Lubricate Oil Grease
Packaging Details Suitable for sea transportation
Lead time (days) 15-20 (To be negotiated)

  Please note: The above table data is for reference only. For specific information, please contact us.

The precision range of ball bearing knife blade is from ABEC7 to ABEC9, with a particle size of 0.3 μ m. Among them, ABEC9's ball bearings have the best precision range and are widely used in the electronics industry, precision measurement industry, and so on.


During the installation process, pollution from dirt and wear media should be prevented;
Temperature and humidity should be controlled to avoid excessive temperatures during startup and operation;
It should be operated and lubricated in the correct reverse direction to avoid unnecessary damage.


Ball bearings have many advantages, making them highly competitive in the market.
Firstly, they are very durable and have good wear performance, making their service life longer than many other types of bearings.
Secondly, they are easy to install and can provide low friction performance in various applications.
Thirdly, they require a relatively low level of maintenance, making them cost-effective.
In addition, compared to many other types of bearings, their purchase cost is relatively low, making them an economical choice.

 

 

 

 



ball bearing knife blade---FAQs Guide

1.What is the typical noise level associated with ball bearing knife blade, and how are noise-reduction techniques applied?
2.Are there ball bearing knife blade designed for use in critical medical equipment?
3.What are the considerations for selecting sealed or shielded ball bearing knife blade to protect against contamination and retain lubrication?
4.What maintenance practices are recommended to extend the lifespan of ball bearing knife blade and prevent premature failure?
5.Are there ball bearing knife blade designed for extreme temperature environments, such as cryogenic or furnace applications?
6.Can ball bearing knife blade be used in both vertical and horizontal orientations?
7.Can ball bearing knife blade operate in high-speed applications, and what design features make them suitable for such conditions?
8.How do manufacturers ensure the quality and reliability of ball bearing knife blade through material selection and precision machining?
9.As a ball bearing knife blade manufacturer,How Can We Guarantee Quality?
10.How do cage materials and designs impact ball bearing knife blade performance and stability?
11.What are the considerations for choosing between open, shielded, or sealed ball bearing knife blade in specific applications?
12.How do ball bearing knife blade contribute to the overall efficiency and energy savings in industrial machinery and transportation systems?
13.What is the role of ball bearing knife blade in reducing friction and wear in automotive applications, such as wheel hubs and transmissions?

1.What is the typical noise level associated with ball bearing knife blade, and how are noise-reduction techniques applied?

To measure in accurate way the ball bearing knife blade noise under rotation during their manufacturing process is a key activity particularly in the production of medium, small and ultra-small deep groove ball bearings. This capability in bearings noise analysis has become the real distinguishing element between a standard bearings noise equipment and a superior class one.
The various types of vibration and sound in rolling bearings can be grouped in four main categories: structural, manufacturing, handling and other. The structural vibration consists mostly of race, click, squeal and cage noise: it can be continuous or intermittent depending on specific cases. The manufacturing vibration is instead related to the waviness noise generated by the geometrical imperfections of inner and outer ring and of rolling elements, being always continuous in nature. The so-called handling vibration is normally associated with flaw and contamination and is generating – in most of the cases – irregular noise. Then there are other types of vibrabition that include noise generated by sealing and lubricant (irregular) or by runout (continuous).
 

2.Are there ball bearing knife blade designed for use in critical medical equipment?

Precision ball bearing knife blade are among critical components in medical devices that are vital to ensuring patient safety. Correct choice of suitable ball and ring materials and the right product design can ensure high-precision bearings — and medical devices — have a long service life.
Precision bearings are used in a wide variety of medical devices including surgical power tools, ventilators and heart pumps — and patient safety depends on them all. Whatever the device, there is an onus on medical device original equipment manufacturers (OEMs) to ensure that the right type of bearings are chosen, and fit precisely into the application.
 

3.What are the considerations for selecting sealed or shielded ball bearing knife blade to protect against contamination and retain lubrication?

First, the environment in which your ball bearing knife blade operate in can help you identify potential contaminants, allowing you to select your shields or seals accordingly. For example, shielded bearings have a gap that can allow finer contaminants or water from washdown applications to enter the bearing and get into the raceways.The challenge for sealing bearings is to seal the bearing by protecting the bearing from contaminants and running efficiencies.
 

4.What maintenance practices are recommended to extend the lifespan of ball bearing knife blade and prevent premature failure?

Proper handling and installation of ball bearing knife blade is essential to preventing premature failure. Ensure that bearings are stored and transported in a clean, dry, and vibration-free environment. During installation, ensure that bearings are properly aligned, and torque is applied correctly.
 

5.Are there ball bearing knife blade designed for extreme temperature environments, such as cryogenic or furnace applications?

High temperature ball bearing knife blade use specialized lubricants to stand up to high temperatures. Grease-packed bearings are pre-filled with fluorine grease for high temperatures, while YS and SJ bearings use molybdenum disulfide (MoS2) solid lubricant to withstand temperatures up to 350°C and 400°C respectively.
 

Are there ball bearing knife blade designed for extreme temperature environments, such as cryogenic or furnace applications?

6.Can ball bearing knife blade be used in both vertical and horizontal orientations?

Sleeve Bearings: Sleeve bearings, also known as plain bearings, employ a simple yet effective mechanism. A cylindrical sleeve separates the rotating shaft from the stationary portion of the bearing, reducing friction and enabling smooth rotation. Sleeve bearings are characterized by their quiet operation, cost-effectiveness, and suitability for horizontal mounting orientations.
Ball Bearings: Ball bearings introduce small metal balls between the moving parts, providing enhanced durability and reduced friction. This design allows for smoother and more efficient rotation, making ball bearings well-suited for high-performance applications and vertical installations.
 

7.Can ball bearing knife blade operate in high-speed applications, and what design features make them suitable for such conditions?

They have very low rolling friction and are optimized for low noise and low vibration. This makes them ideal for high-speed applications. ball bearing knife blade are comparatively easy to install and require minimal maintenance.
 

8.How do manufacturers ensure the quality and reliability of ball bearing knife blade through material selection and precision machining?

High-precision measuring instruments, such as micrometers and gauges, are used to check the dimensions of the rings and balls to ensure they meet tight tolerances. Surface Finish Inspection: Surface finish is assessed using profilometers to ensure the required smoothness and low friction characteristics.
 

9.As a ball bearing knife blade manufacturer,How Can We Guarantee Quality?

Always a Pre-production Sample Before Mass Production;Always Final Inspection Before Shipment.
 

10.How do cage materials and designs impact ball bearing knife blade performance and stability?

As the core component of rotating machinery, the performance and reliability of high-precision ball bearing knife blade directly affect the overall performance and life of the machine and instrument . The increase of the rotational speed will aggravate the collision and friction of the cage, which will lead to the decrease of the rotational stability of the cage. The unstable movement of the cage could in turn lead to more severe collision and wear, thus reducing the life and reliability or even the destruction of the bearing.
Therefore, it is very necessary to study the cage stability to guarantee the stable operation of bearings. However, the dynamic characteristics of the cage is very complex. Parameters such as load, rotational speed and lubrication may affect its kinematic and tribological conditions, which leads to the change of its motion behavior.
 

How do cage materials and designs impact ball bearing knife blade performance and stability?

11.What are the considerations for choosing between open, shielded, or sealed ball bearing knife blade in specific applications?

While sealed bearings offer superior protection and maintenance advantages, shielded ball bearing knife blade can be more suitable in situations where minimal friction and operating temperature are crucial. It's essential to assess the operational environment and demands before making a selection.
 

12.How do ball bearing knife blade contribute to the overall efficiency and energy savings in industrial machinery and transportation systems?

The balls roll along the raceway, allowing for smooth rotation of the machinery or equipment. Ball bearings are used to support rotating, reduce friction and support radial and axial loads in high-load, high-speed applications where reliability and efficiency are critical.
 

13.What is the role of ball bearing knife blade in reducing friction and wear in automotive applications, such as wheel hubs and transmissions?

When a load is applied to a ball bearing, the ball bearing knife blade roll freely between the inner and outer rings. This rolling action significantly reduces friction compared to sliding contact, resulting in smoother rotation and reduced wear.