China Hot selling 12.9mm Chrome Steel/ AISI52100/ Gcr15/100cr6 Ball for Bearing

Product Description

Product Description

12.9mm Chrome Steel/ AISI52100/ Gcr15/100cr6 Ball for Bearing

Material AISI 52100/ 100Cr6/ GCr15/ SUJ2
Size Rages 2mm-25.4mm
Hardness HRC58-65
Standard National and International Standard
Specification 25kg/20kg
Feature 1)Mainly used in bearings (2)High hardness (3)Good resistance (4)excellent wear resistance
Usages Bearing,Ball screws, Motorcycle, Pulley, Xihu (West Lake) Dis., Tools etc.
Transport Package Case pallet, Wooden, Carton, Polly Bag, Drum and so on

 

Company Profile

Production procss

Application

Our Advantages

Certifications

 

Packaging & Shipping

 

FAQ

12.9mm Chrome Steel/ AISI52100/ Gcr15/100cr6 Ball for Bearing

1.Q:Can you provide free samples?
A:Absolutely, we provided free samples but freight cost is on customer side.

2.Q:What’s your delivery time?
A:Within 3-30 days according to your required size and quantity.

3.Q:What’s your payment way?
A:We accept the TT,Payment=1000USD, 30% T/T in advance,balance payment before shippment. 

4.Q:Why choose you ?
A:We are manufacturer with 28 years experience.
Checking in the whole manufacturing process &100%  inspection before  shipment ensure the quality of our products.

5.Q:Where do you export?
A: Our products are exported to over 40 countries and regions including USA, Korea, Japan, Malaysia, Australia, Canada and South Africa, and so on.

6.Q:Car you accept OEM/ODM?
A:Yes, we can. Customizing according to your requirement or drawing.

7.Q:Your company is a factory or trading company?
A: We are trading company and we have our own factory.

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Customized: Customized
Certification: ISO
Standard Parts: Yes
Universal: Yes
Type: Bearing Ball
Material: Chrome Steel
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Customization:
Available

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screw ball

How do you determine when a screw ball needs to be replaced?

Determining when a screw ball, also known as a ball screw, needs to be replaced requires careful assessment of its condition and performance. Several factors should be considered to determine if replacement is necessary. Here are some key indicators to help determine when a screw ball needs to be replaced:

  • Excessive Wear: If the screw ball has undergone significant wear, such as worn ball bearings, damaged raceway, or excessive backlash, it may be an indication that replacement is necessary. Visual inspection and measurements of critical dimensions can help assess the extent of wear and determine if it has reached a point where replacement is warranted.
  • Reduced Performance: A noticeable decline in the performance of the screw ball assembly, such as decreased positioning accuracy, repeatability, or load-carrying capacity, can indicate the need for replacement. If the system is no longer meeting the required specifications or is unable to perform its intended function reliably, replacement should be considered.
  • Severe Damage: If the screw ball has suffered severe damage, such as fractures, deformations, or extensive pitting and corrosion, it is likely beyond repair and should be replaced. Severe damage can compromise the structural integrity and functionality of the assembly, leading to safety risks and unreliable operation.
  • Frequent Failures: If the screw ball assembly is experiencing frequent failures or breakdowns, even after repairs or maintenance efforts, it may indicate that the wear and tear have reached a critical point. Frequent failures can result in costly downtime, reduced productivity, and increased maintenance costs. In such cases, replacing the screw ball assembly can be a more cost-effective solution in the long run.
  • Unrepairable Issues: Certain issues with the screw ball assembly may be unrepairable or uneconomical to fix. For example, if the assembly has been subjected to severe contamination or exposure to corrosive substances that have caused irreversible damage, replacement may be the only viable option. Similarly, if critical components or specialized parts are no longer available or obsolete, replacement may be necessary.
  • Manufacturer’s Recommendations: It is important to consult the manufacturer’s recommendations and guidelines regarding the expected lifespan and replacement intervals for the specific screw ball product. Manufacturers often provide guidelines on the maximum allowable wear, recommended maintenance practices, and replacement criteria. Adhering to these recommendations can help ensure safe and reliable operation.

It is crucial to thoroughly assess the condition of the screw ball assembly and consider the impact of its performance on the overall system. Regular inspection, maintenance, and monitoring can help identify signs of wear, damage, or decline in performance. If any of the above indicators are present, consulting with experts or the manufacturer can provide valuable insights and guidance on whether replacement is necessary.

When replacing a screw ball, it is important to select a suitable replacement that meets the application requirements, including load capacity, accuracy, speed, and environmental considerations. Proper installation, lubrication, and maintenance of the new screw ball assembly are also essential to ensure optimal performance and longevity.

screw ball

How do temperature variations affect the performance of screw balls?

Temperature variations can have a significant impact on the performance of screw balls, also known as ball screws. These linear motion systems are designed to operate within specific temperature ranges to maintain their accuracy, dimensional stability, and overall performance. Here’s how temperature variations can affect the performance of screw balls:

  • Thermal Expansion: Screw balls are typically composed of different materials, such as steel or ceramics, that have different coefficients of thermal expansion. When the temperature changes, each material expands or contracts at a different rate, leading to dimensional changes in the screw ball components. This thermal expansion can introduce misalignment, increased backlash, or changes in preload, affecting the accuracy and repeatability of the linear motion system.
  • Lubrication: Temperature variations can impact the properties and performance of the lubricant used in screw balls. Lubricants have specific viscosity and temperature ranges in which they function optimally. High temperatures can cause lubricants to thin out, reducing their ability to provide sufficient lubrication and increasing friction between the ball bearings and the raceway. On the other hand, low temperatures can cause lubricants to thicken, impeding smooth motion and increasing resistance. Insufficient or improper lubrication due to temperature variations can lead to increased wear, reduced efficiency, and potential premature failure of the screw ball system.
  • Material Integrity: Extreme temperature variations can affect the mechanical properties and integrity of the materials used in screw balls. High temperatures can cause thermal degradation, softening, or even melting of certain materials, leading to reduced strength, increased wear, and potential deformation. Conversely, low temperatures can make materials brittle and more susceptible to fracture or failure under load. It is important to consider the temperature limits of the screw ball materials to ensure their structural integrity and long-term performance.
  • System Rigidity: Temperature changes can affect the rigidity and stiffness of the screw ball assembly. When subjected to high temperatures, the components may expand, leading to a decrease in overall system rigidity. This reduction in stiffness can result in increased deflection, reduced accuracy, and diminished load-carrying capacity. Conversely, low temperatures can cause contraction and increased system rigidity, potentially affecting the smoothness of motion and overall performance.
  • Sealing and Environmental Protection: Temperature variations can impact the effectiveness of seals and environmental protection measures in screw ball assemblies. Seals play a crucial role in preventing contaminants, moisture, and debris from entering the system. Extreme temperature changes can cause seals to degrade, lose flexibility, or become brittle, compromising their sealing properties. This can result in increased risk of contamination, accelerated wear, and reduced performance of the screw ball assembly.

To mitigate the effects of temperature variations on screw ball performance, several measures can be taken. These include:

  • Choosing materials with suitable temperature resistance and low coefficients of thermal expansion.
  • Using lubricants that are specifically formulated for the expected temperature range.
  • Implementing temperature compensation techniques to maintain dimensional accuracy and alignment.
  • Applying thermal barriers or insulation to minimize the transfer of heat to the screw ball assembly.
  • Ensuring proper sealing and protection from extreme temperature environments.
  • Using temperature control systems or environmental enclosures to maintain a stable operating temperature.

By considering the potential effects of temperature variations and implementing appropriate measures, the performance and longevity of screw balls can be optimized, ensuring accurate and reliable linear motion in various applications.

screw ball

What is a screw ball and where is it commonly used?

A screw ball, also known as a knuckleball, is a type of pitch in baseball that is characterized by its erratic and unpredictable movement. Unlike most pitches that follow a predictable trajectory, the screwball moves in an unconventional manner, often resembling a combination of a fastball and a curveball. It is thrown by applying a specific grip and using a throwing motion that imparts spin and a unique arm angle.

The screwball gets its name from the way it breaks or “screws” away from a pitcher’s arm side. For a right-handed pitcher, the ball typically moves from right to left (away from right-handed hitters) and vice versa for a left-handed pitcher. This movement is opposite to that of a regular curveball, which breaks towards the pitcher’s arm side.

Due to its unusual and deceptive movement, the screwball can be challenging for batters to track and hit accurately. It can break late and sharply, making it difficult to anticipate its path. The unpredictability of the screwball makes it an effective weapon for pitchers to keep hitters off balance and induce swings and misses or weak contact.

While the screwball was more commonly used in the early decades of baseball, it has become a relatively rare pitch in modern professional baseball. The pitch requires a specific throwing motion and grip that can put strain on a pitcher’s arm and increase the risk of injury. As a result, many coaches and organizations discourage or outright prohibit young pitchers from learning or throwing the screwball to protect their long-term arm health.

It’s worth noting that the screwball is still seen occasionally in professional baseball, typically from pitchers who have mastered the mechanics and have the necessary arm strength and flexibility to throw the pitch safely. However, its usage is far less prevalent compared to other pitches like fastballs, curveballs, sliders, or changeups.

In summary, a screwball is a pitch in baseball known for its erratic and unpredictable movement. While it was once more commonly used, it has become less prevalent due to concerns about arm health. When thrown correctly, the screwball can be a challenging pitch for batters to hit, offering a unique strategic advantage to pitchers who can effectively utilize it.

China Hot selling 12.9mm Chrome Steel/ AISI52100/ Gcr15/100cr6 Ball for Bearing  China Hot selling 12.9mm Chrome Steel/ AISI52100/ Gcr15/100cr6 Ball for Bearing
editor by CX 2024-02-27

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