Product Description
Excellent powder metallurgy parts metallic sintered parts
We could offer various powder metallurgy parts including iron based and copper based with top quality and cheapest price, please only send the drawing or sample to us, we will according to customer's requirement to make it. if you are interested in our product, please do not hesitate to contact us, we would like to offer the top quality and best service for you. thank you!
How do We Work with Our Clients
1. For a design expert or a big company with your own engineering team: we prefer to receive a fully RFQ pack from you including drawing, 3D model, quantity, pictures;
2. For a start-up company owner or green hand for engineering: just send an idea that you want to try, you don't even need to know what casting is;
3. Our sales will reply you within 24 hours to confirm further details and give the estimated quote time;
4. Our engineering team will evaluate your inquiry and provide our offer within next 1~3 working days.
5. We can arrange a technical communication meeting with you and our engineers together anytime if required.
| Place of origin: | Jangsu,China |
| Type: | Powder metallurgy sintering |
| Spare parts type: | Powder metallurgy parts |
| Machinery Test report: | Provided |
| Material: | Iron,stainless,steel,copper |
| Key selling points: | Quality assurance |
| Mould type: | Tungsten steel |
| Material standard: | MPIF 35,DIN 3571,JIS Z 2550 |
| Application: | Small home appliances,Lockset,Electric tool, automobile, |
| Brand Name: | OEM SERVICE |
| Plating: | Customized |
| After-sales Service: | Online support |
| Processing: | Powder Metallurgr,CNC Machining |
| Powder Metallurgr: | High frequency quenching, oil immersion |
| Quality Control: | 100% inspection |
The Advantage of Powder Metallurgy Process
1. Cost effective
The final products can be compacted with powder metallurgy method ,and no need or can shorten the processing of machine .It can save material greatly and reduce the production cost .
2. Complex shapes
Powder metallurgy allows to obtain complex shapes directly from the compacting tooling ,without any machining operation ,like teeth ,splines ,profiles ,frontal geometries etc.
3. High precision
Achievable tolerances in the perpendicular direction of compacting are typically IT 8-9 as sintered,improvable up to IT 5-7 after sizing .Additional machining operations can improve the precision .
4. Self-lubrication
The interconnected porosity of the material can be filled with oils ,obtaining then a self-lubricating bearing :the oil provides constant lubrication between bearing and shaft ,and the system does not need any additional external lubricant .
5. Green technology
The manufacturing process of sintered components is certified as ecological ,because the material waste is very low ,the product is recyclable ,and the energy efficiency is good because the material is not molten.
FAQ
Q1: What is the type of payment?
A: Usually you should prepay 50% of the total amount. The balance should be pay off before shipment.
Q2: How to guarantee the high quality?
A: 100% inspection. We have Carl Zeiss high-precision testing equipment and testing department to make sure every product of size,appearance and pressure test are good.
Q3: How long will you give me the reply?
A: we will contact you in 12 hours as soon as we can.
Q4. How about your delivery time?
A: Generally, it will take 25 to 35 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order. and if the item was non standard, we have to consider extra 10-15days for tooling/mould made.
Q5. Can you produce according to the samples or drawings?
A: Yes, we can produce by your samples or technical drawings. We can build the molds and fixtures.
Q6: How about tooling Charge?
A: Tooling charge only charge once when first order, all future orders would not charge again even tooling repair or under maintance.
Q7: What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.
Q8: How do you make our business long-term and good relationship?
A: 1. We keep good quality and competitive price to ensure our customers benefit ;
2. We respect every customer as our friend and we sincerely do business and make friends with them, no matter where they come from.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Customized: | Customized |
|---|---|
| Certification: | IATF16949 |
| Standard Parts: | No |
| Samples: |
US$ 20/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What are the temperature limits of spline bushings, and how does it impact their performance?
Spline bushings have specific temperature limits that define the range of temperatures within which they can operate effectively. The temperature limits of spline bushings are determined by factors such as their materials, lubrication, and the application environment. Let's explore the temperature limits and how they impact the performance of spline bushings:
1. Temperature Limits:
- The temperature limits of spline bushings vary depending on the materials used in their construction. Different materials have different thermal properties and can withstand varying temperature ranges. Additionally, the presence of lubrication can also affect the temperature limits.
- Common materials used in spline bushings include metals like steel or bronze, as well as polymers such as nylon or PTFE (polytetrafluoroethylene). Each material has its own temperature limitations.
2. Impact on Performance:
- Operating outside the recommended temperature limits can significantly impact the performance of spline bushings. Here are some effects of temperature on their performance:
- Dimensional Stability: Temperature variations can cause expansion or contraction of the bushing material. If the temperature exceeds the upper limit, the bushings may expand beyond their designed clearances, leading to increased friction, binding, or improper fit. Conversely, at lower temperatures, the bushings may contract, resulting in clearance gaps and reduced load-bearing capacity.
- Lubrication: Temperature changes can affect the viscosity and effectiveness of lubricants used with spline bushings. High temperatures can cause lubricants to thin out, reducing their ability to provide sufficient lubrication and increasing friction. Low temperatures can cause lubricants to thicken or solidify, impacting their flow and lubricating properties.
- Mechanical Properties: Extreme temperatures can alter the mechanical properties of spline bushing materials. High temperatures may lead to softening or degradation of polymers, reducing their load-bearing capacity and overall strength. Metals can experience changes in hardness, ductility, or fatigue properties, affecting their durability and resistance to wear.
- Corrosion and Oxidation: Elevated temperatures can accelerate corrosion or oxidation processes, particularly in metal bushings. This can weaken the bushing material and compromise its performance and longevity.
3. Considerations for Temperature:
- When selecting spline bushings, it is essential to consider the temperature range in which they will operate. Review the manufacturer's specifications and guidelines to ensure that the bushings are suitable for the expected temperature conditions.
- If your application involves extreme temperatures, such as in automotive engines or industrial processes, consider using specialized high-temperature bushings or materials specifically designed for such conditions.
- Proper lubrication is crucial to mitigate the effects of temperature on spline bushings. Select lubricants that can maintain their viscosity and lubricating properties within the expected temperature range. Consult with lubricant manufacturers or suppliers for recommendations on lubricants suitable for your specific temperature requirements.
- Regular inspection and maintenance of spline bushings are important to detect any signs of temperature-induced damage or performance degradation. Monitor the bushings for excessive wear, deformation, or signs of lubrication breakdown, and take appropriate action if needed.
By understanding the temperature limits of spline bushings and their impact on performance, you can make informed decisions in selecting and maintaining bushings that are suitable for your desired temperature conditions, ensuring optimal performance and longevity.
What are the key factors to consider when selecting spline bushings for custom or unique applications?
When selecting spline bushings for custom or unique applications, several key factors need to be considered to ensure the optimal performance and compatibility of the bushings with the specific requirements of the application. Here are the key factors to consider:
1. Application Requirements:
- Understand the unique requirements of the application. Consider factors such as the type of motion involved (rotary, linear, oscillating), the magnitude and direction of forces, operating speeds, temperatures, environmental conditions, and any specific performance criteria.
- Identify the desired functionality and performance goals of the spline bushings within the custom application. For example, is there a need for high precision, load capacity, wear resistance, corrosion resistance, or other specialized characteristics?
2. Design Considerations:
- Evaluate the design constraints and limitations of the custom application. Consider factors such as available space, mounting options, mating components, alignment requirements, and any other design considerations that may impact the selection and installation of the spline bushings.
- Take into account any unique geometries or specifications required for the spline bushings due to the custom nature of the application. Custom applications may involve non-standard shaft sizes, specialized spline profiles, or other unique design features that need to be accommodated by the chosen bushings.
3. Load Capacity and Performance:
- Determine the anticipated load capacity and performance requirements of the spline bushings in the custom application. Consider the magnitude and direction of forces, dynamic factors, shock loads, and any other external factors that may affect the load distribution and performance of the bushings.
- Ensure that the selected spline bushings have sufficient load capacity and performance ratings to handle the expected operating conditions and meet the performance goals of the custom application. Consult with manufacturers, suppliers, or engineers to validate the suitability of the bushings for the specific load requirements.
4. Material Selection:
- Select the appropriate materials for the spline bushings based on the application's requirements. Consider factors such as strength, durability, wear resistance, corrosion resistance, lubrication requirements, and compatibility with mating components or operating conditions.
- Custom applications may require materials that are tailored to specific needs, such as high-temperature applications, corrosive environments, or applications with stringent hygiene or regulatory requirements. Consult with experts or suppliers who specialize in power transmission components to identify suitable material options.
5. Expert Consultation:
- Seek advice and consultation from experts, manufacturers, or suppliers who have experience with custom applications and power transmission components. They can provide valuable insights, recommendations, and technical support to help navigate the selection process.
- Share detailed information about the custom application, including the specific requirements, operating conditions, design constraints, and performance goals. Collaborating with experts will help ensure that the chosen spline bushings are well-suited to the unique needs of the application.
By considering these key factors and seeking expert guidance, you can select spline bushings that are tailored to the requirements of custom or unique applications. It's important to thoroughly evaluate the application, review technical specifications, and conduct testing and validation to ensure the selected spline bushings can deliver optimal performance and reliability in the custom application.
What are the key characteristics of spline bushings that make them suitable for various industries?
Spline bushings possess key characteristics that make them suitable for various industries. These characteristics include:
1. Precise Fit:
- Spline bushings are designed to provide a precise fit between the shaft and the mating component, such as a gear, pulley, or coupling. This precise fit ensures accurate power transmission and minimizes backlash or play in the system.
- The spline geometry enables a close tolerance fit, allowing for efficient torque transfer and rotational accuracy in applications where precise positioning and synchronization are critical.
2. Load Distribution:
- Spline bushings are designed to distribute loads evenly along the length of the spline contact area. This helps to reduce stress concentrations and prevents localized wear or failure.
- The spline design allows for a larger contact area compared to other types of connections, enabling efficient load transmission and improved durability, especially in high-load applications.
3. Torque Transmission:
- Spline bushings are capable of transmitting high torque loads. The spline design provides a large surface area for torque transfer, ensuring efficient power transmission without slippage or loss of rotational force.
- This characteristic makes spline bushings well-suited for applications that require high torque transmission, such as machinery, power transmission systems, automotive drivetrains, and heavy equipment.
4. Misalignment Compensation:
- Spline bushings are designed to accommodate a certain degree of misalignment between the shaft and the mating component. They can compensate for axial, radial, and angular misalignments, allowing for smooth operation even in imperfect alignment conditions.
- This characteristic is particularly valuable in applications where shafts may experience misalignment due to assembly tolerances, thermal expansion, or dynamic operating conditions.
5. Wear Resistance:
- Spline bushings are often made from materials that exhibit high wear resistance, such as hardened steel, bronze, or composite materials. These materials can withstand the repetitive sliding motion and contact stresses encountered during operation.
- The use of wear-resistant materials ensures extended service life and reduces the need for frequent maintenance or replacement, making spline bushings suitable for demanding industrial applications.
6. Lubrication and Maintenance:
- Spline bushings may incorporate features such as lubrication grooves, oil holes, or self-lubricating properties. These features facilitate effective lubrication and minimize friction, thereby reducing wear and prolonging the bushing's lifespan.
- Some spline bushings are designed to operate maintenance-free, while others may require periodic lubrication depending on the application requirements and operating conditions.
These key characteristics of spline bushings contribute to their suitability across various industries, including automotive, aerospace, machinery, robotics, marine, and power generation.
When selecting spline bushings for specific applications, it's important to consider factors such as the required torque capacity, operating environment, speed, alignment requirements, and the material compatibility with the mating components.
editor by CX 2024-05-15
China wholesaler 10*14*20 mm Con Rod Bush Bearing Copper Bushing in Stock control arm bushing
Product Description
10*14*20 mm Con Rod Bush Bearing Copper Bushing In Stock
| Product Name | 10*14*20 mm Con Rod Bush Bearing Copper Bushing In Stock |
| Material | Bronze Brass C86300 graphite |
| Bush types | Flange and Sleeve Bushing |
| Lubricating | Oilless |
| Certification | ISO/TS16949:2009 |
| Features | Maintenance-free, Long life |
| Technical | Centrifugal Rotating Cast |
| Size | As per customer's drawing |
| Payment | L/C,T/T,Western Union and Paypal |
| Service | OEM Service |
| Samples | Free |
Certificate
Packing
FAQ
Q:Why choose us?
A:1. We are professional,have factory in ZheJiang for many years.
2. We are experienced for 10 years.
3. We can offer a various kind of bearing with high quality:Z1V1,Z2V2,Z3V3 and best price
Q:How is the quality of your products?
A:The same quality, we have lower price.The same price,we have better quality.
Q:Except bushing,what other main bearing do you have?
A:one way bearing,water pump bearing,self-aligning ball bearing ,Cylindrical roller bearing,Taper Roller Bearing,Thrust roller bearing,Spherical roller bearing,Deep groove ball bearing,Angular contact ball bearing etc.
Q:Can I get bushing free samples?
A:We will charge a little sample fee for our regular designs or customized ones, These charges will be refunded to you when your mass production order is confirmed.
Q:Can you make the products as our requirement?
A:We have more than 10years' OEM experience. We supply products fo more than 300 automobile parts factories.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Rolling Body: | Bushing |
|---|---|
| The Number of Rows: | Single |
| Outer Dimension: | Micro(≤26mm) |
| Samples: |
US$ 0.1/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What are the differences between internal spline bushings and external spline bushings?
Internal spline bushings and external spline bushings are two types of components used in spline systems, and they differ in their design and function. Here are the key differences between these two types:
1. Location and Orientation:
- The primary difference between internal spline bushings and external spline bushings lies in their location and orientation within a spline system.
- Internal spline bushings, as the name suggests, are positioned inside a cylindrical component or hub. They have internal teeth or splines that engage with the external teeth or splines of a mating shaft or component.
- External spline bushings, on the other hand, are located on the exterior surface of a cylindrical component or shaft. They have external teeth or splines that engage with the internal teeth or splines of a mating hub or component.
2. Engagement and Power Transmission:
- Internal spline bushings and external spline bushings differ in how they engage with mating components and transmit power.
- Internal spline bushings transmit torque and rotational power from the internal teeth to the external teeth of the mating shaft or component. The internal splines of the bushing provide the driving force, while the external splines receive and transmit the torque.
- External spline bushings, on the other hand, receive torque and rotational power from the external teeth of the mating hub or component. The external splines of the bushing receive the driving force, while the internal splines of the mating component provide the points of engagement and power transmission.
3. Installation and Removal:
- Installing and removing internal spline bushings and external spline bushings may involve different procedures and considerations.
- Internal spline bushings are typically inserted into a cylindrical bore or cavity in the mating component or hub. They may require press-fitting or other methods to ensure a secure and tight fit.
- External spline bushings, on the other hand, are mounted onto the outer surface of a shaft or component. They may be secured using methods such as keyways, set screws, or other fastening mechanisms.
4. Applications and Usage:
- Internal spline bushings and external spline bushings find applications in different scenarios based on their design and functionality.
- Internal spline bushings are commonly used in applications where the shaft or component needs to rotate while transmitting torque or power. Examples include gearboxes, transmissions, and rotating machinery.
- External spline bushings are often employed when a stationary hub or component needs to engage and transmit power to a rotating shaft or component. Applications include couplings, drive systems, and power transmission assemblies.
It's important to note that the specific design and dimensions of spline bushings may vary based on the application and industry requirements. The choice between internal and external spline bushings depends on the specific needs of the system, such as the desired power transmission direction and the relative motion between the mating components.
When selecting spline bushings, consider factors such as the torque requirements, load capacity, dimensional compatibility, and the overall design and configuration of the spline system.
By understanding the differences between internal spline bushings and external spline bushings, you can make informed decisions regarding their selection and ensure compatibility with your specific application requirements.
What are the steps for retrofitting machinery with spline bushings for improved performance?
Retrofitting machinery with spline bushings can be a beneficial upgrade to improve performance, reduce wear, and enhance motion control. Here are the steps involved in retrofitting machinery with spline bushings:
1. Evaluate the Existing Machinery:
- Begin by assessing the current machinery and its components. Identify the areas where spline bushings can be incorporated to improve performance and motion control.
- Evaluate the specific requirements of the machinery, such as load capacity, operating conditions, and the type of motion involved. This evaluation will help determine the appropriate type and size of spline bushings needed for the retrofit.
2. Select the Suitable Spline Bushings:
- Based on the evaluation of the machinery, select the spline bushings that are most suitable for the retrofit. Consider factors such as load capacity, operating speeds, environmental conditions, and compatibility with existing components.
- Consult with manufacturers, suppliers, or engineers who specialize in power transmission components to ensure that the selected spline bushings meet the specific requirements of the machinery and the desired performance improvements.
3. Prepare the Machinery:
- Before installing the spline bushings, prepare the machinery by ensuring it is clean and free from any debris or contaminants. Remove any existing components or parts that need to be replaced with the spline bushings.
- Inspect the mating components, such as shafts, gears, or couplings, and ensure they are in good condition. If necessary, clean or repair these components before proceeding with the retrofit.
4. Install the Spline Bushings:
- Follow the manufacturer's instructions and guidelines for installing the spline bushings. This may involve specific procedures or techniques depending on the type and design of the bushings.
- Ensure that the spline bushings are properly aligned and securely fastened to the machinery. Use appropriate tools and techniques to achieve the recommended torque or preload, if applicable.
- Take care to avoid damaging the bushings or the mating components during the installation process. Follow any recommended lubrication or sealing procedures specified by the manufacturer.
5. Test and Fine-tune:
- After the spline bushings are installed, conduct thorough testing to verify their performance and functionality. Check for any unusual noise, vibrations, or irregularities in the motion control of the machinery.
- Fine-tune the machinery as needed to optimize the performance of the newly retrofitted components. This may involve adjusting alignment, preload, or other parameters to ensure smooth operation and improved performance.
6. Monitor and Maintain:
- Once the retrofit is complete, establish a regular monitoring and maintenance routine for the machinery and the spline bushings. Follow the manufacturer's recommendations for lubrication, inspection, and maintenance intervals.
- Monitor the performance of the machinery over time and address any issues or signs of wear promptly. Regular maintenance and timely replacement of worn or damaged spline bushings will help maintain the improved performance and prolong the life of the retrofit.
By following these steps, you can successfully retrofit machinery with spline bushings for improved performance and enhanced motion control. It's important to consult with experts or professionals when needed and ensure that all safety precautions are taken during the retrofitting process.
Can I get recommendations for spline bushings with high torque capacity for heavy-duty applications?
If you are looking for spline bushings with high torque capacity for heavy-duty applications, here are some recommendations:
1. Hardened Steel Spline Bushings:
- Hardened steel spline bushings are known for their excellent strength and durability. They can handle high torque loads and are suitable for heavy-duty applications that require robust power transmission.
- Look for spline bushings made from materials such as alloy steel or tool steel, which have high tensile strength and resistance to wear and fatigue. These bushings can withstand demanding operating conditions and provide long-lasting performance.
2. Bronze or Brass Spline Bushings:
- Bronze or brass spline bushings are another option for high torque capacity in heavy-duty applications. These materials offer good wear resistance, high load-bearing capabilities, and effective heat dissipation.
- Consider using bronze or brass spline bushings in applications where there may be high shock loads, vibrations, or abrasive conditions. They are commonly used in industries such as construction, mining, and agriculture.
3. Composite or Polymer Spline Bushings:
- Composite or polymer spline bushings can provide high torque capacity while offering additional advantages such as lightweight, corrosion resistance, and self-lubrication properties.
- Look for composite materials like nylon, PTFE (polytetrafluoroethylene), or other engineering plastics that have high mechanical strength and low friction characteristics. These bushings are commonly used in industries such as automotive, aerospace, and marine.
4. Customized Spline Bushings:
- In some cases, heavy-duty applications may require customized spline bushings to meet specific torque capacity requirements. Working with manufacturers or specialty suppliers who can provide custom solutions is advisable.
- Provide detailed information about your application, including the torque load, operating conditions, and any specific design considerations. Customized spline bushings can be engineered to match the exact requirements of your heavy-duty application.
5. Consult with Industry Experts:
- It's always beneficial to consult with industry experts, engineers, or suppliers who specialize in power transmission components. They can provide recommendations based on their experience and knowledge of heavy-duty applications.
- Share the specific requirements of your application, including the torque capacity, operating parameters, and any other relevant factors. Experts can suggest suitable spline bushing options or provide guidance on material selection and design considerations.
When selecting spline bushings for high torque capacity in heavy-duty applications, consider factors such as the load requirements, operating speed, environmental conditions, and the compatibility with other components in the power transmission system.
Remember to follow manufacturer guidelines, installation instructions, and maintenance recommendations to ensure optimal performance and longevity of the spline bushings in your heavy-duty application.
editor by CX 2024-03-27
China A2213231765 2213231765 W221 S350 S500 S320 S300 S63AMG front swing rod bushing for Mercedes-Benz bushing assembly
Design: M-Course (W164)
Year: 2
Vehicle Fitment: Mercedes-Benz
Reference NO.: 530168
Sort: –
Material: –
Size: –
Guarantee: 1 Several years
Product Quantity:
Car Make: for Mercedes
OEM:
Item Title: Stabilizer bushing
MOQ: 10pcs
Good quality: excellent
Packing: as client ask for
Quality warranty: 1year
Shade: as image demonstrates
Supply: 1-7days
Symbol mark: as client ask for
Payment: T/T
Packaging Particulars: we pack our products in neutral white packing containers and brown cartons.we can pack the products in branded containers after receiving your authorization letters.
Merchandise Paramenters
| Element Title | Stabilizer bushing |
| Oem No | 2213231765 |
| Shipping and delivery | By air / by sea/by categorical |
| Aftermarket | Oem Alternative |
| High quality | Common |
| MOQ | 10 Pcs |
| Price | Manufacturing unit Cost |
| Shipping time | 1-7 working days |
| PLACE OF ORIGIN | HangZhou |
| Packing Specifics | one.Neutral packingtwo.In accordance to customer's necessity |
define bushing
editor by czh 2023-02-18
China Standard Joint Rod End Bearing Bushing Ball Joint Posb81/2-20 with Best Sales
Item Description
Joint rod conclude bearing/bushing /ball joint POSB8 1/2-twenty
Quick Specifics
Requirements
1.Large rigidity and prolonged lifestyle
2.Large load capacity
3.Good look full product system
4.simultaneous axial joint load
Packaging & Delivery
Female/Male thread Inch sequence rod finish bearings PHSB.../POSB...collection:
Woman/Male thread Inch sequence rod stop bearings with easy serface, minor friction, reduced sound, they are extensively used in linear movement program. For illustration, punch, resource grinding equipment, automatic cutting machine, printer, card sorting device, Foodstuff Packing Equipment, other sliding parts on industrial equipment.
(1). Radial spherical plain bearings requiring servicing.
(2). Routine maintenance-totally free spherical basic bearings.
(3). Angular get in touch with spherical simple bearings.
(4). Spherical plain thrust bearing.
(5). Rod conclude bearings.
| Type: | Rod End | Brand Name: | YD | Bore Size: | 4.83 - 19.05 mm |
| Model Number: | POSB8 | Place of Origin: | Shandong China (Mainland) | Precision Rating: | P0, P6,P5,P4,P2 |
| Material: | brass,bronze,iron, Gcr15 steel, plastic, nylon | clearance: | C0 C2 C3 C4 C5 | Dimensions: | Metric dimension,inch dimension |
| Vabration: | Z1, Z2, Z3, Z4 | trade type: | Industry and trade integration | Bearing steel liner: | GCr15/100Cr6/SUJ2 |
###
| Packaging Detail: | Single Box(White Box/Color Box/Wooden Box/As requiremed) |
| Delivery Detail: | within 7-15days after received payment |
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|
SI...T/K |
SA...T/K | PHS... | POS... | PHSB... |
| POSB... | NHS... | NOS... | CF... | CF...S |
| CM... | CM...S | CF...T | CM...T | CF...Y |
| CF...YS | CM...Y | CM...YS | XF... | XM... |
| GIR...DO | GAR...DO | GIR..UK | GAR..UK | GIR..ET 2RS |
| GAR...ET 2RS | SQZ..RS | SQ..RS | GE...E(S) | GE...ES 2RS |
| GEG...E(S) | GEG...ES 2RS | GE...LO | GK...DO | GF...DO |
| GIHO-K..DO | GIHR-K..DO | GIHN-K..DO | GE...C | GEG...C |
| PB... | GEBJ... | COM../HCOM.. | COM..T/HCOM..T | GE...ET 2RS |
###
| PHS5/POS5 | SI5T/K/SA5T/K | NHS5/NOS5 | PHSB3/POSB3 | PB5/GEBK5S |
| PHS6/POS6 | SI6T/K/SA6T/K | NHS6/NOS6 | PHSB4/POSB4 | PB6/GEBK6S |
| PHS8/POS8 | SI8T/K/SA8T/K | NHS8/NOS8 | PHSB5/POSB5 | PB8/GEBK8S |
| PHS10/POS10 | SI10T/K/SA10T/K | NHS10/NOS10 | PHSB6/POSB6 | PB10/GEBK10S |
| PHS12/POS12 | SI12T/K/SA12T/K | NHS12/NOS12 | PHSB7/POSB7 | PB12/GEBK12S |
| PHS14/POS14 | SI14T/K/SA14T/K | NHS14/NOS14 | PHSB8/POSB8 | PB14/GEBK14S |
| PHS16/POS16 | SI16T/K/SA16T/K | NHS16/NOS16 | PHSB10/POSB10 | PB16/GEBK16S |
| PHS18/POS18 | SI18T/K/SA18T/K | NHS18/NOS18 | PHSB12/POSB12 | PB18/GEBK18S |
| PHS20/POS20 | SI20T/K/SA20T/K | NHS20/NOS20 | PHSB16/POSB16 | PB20/GEBK20S |
| PHS22/POS22 | SI22T/K/SA22T/K | NHS22/NOS22 | PB22/GEBK22S | |
| PHS25POS25 | SI25T/K/SA25T/K | NHS25/NOS25 | PB25/GEBK25S | |
| PHS28/POS28 | SI28T/K/SA28T/K | NHS28/NOS28 | PB28/GEBK28S | |
| PHS30/POS30 | SI30T/K/SA30T/K | NHS30/NOS30 | PB30/GEBK30S |
| Type: | Rod End | Brand Name: | YD | Bore Size: | 4.83 - 19.05 mm |
| Model Number: | POSB8 | Place of Origin: | Shandong China (Mainland) | Precision Rating: | P0, P6,P5,P4,P2 |
| Material: | brass,bronze,iron, Gcr15 steel, plastic, nylon | clearance: | C0 C2 C3 C4 C5 | Dimensions: | Metric dimension,inch dimension |
| Vabration: | Z1, Z2, Z3, Z4 | trade type: | Industry and trade integration | Bearing steel liner: | GCr15/100Cr6/SUJ2 |
###
| Packaging Detail: | Single Box(White Box/Color Box/Wooden Box/As requiremed) |
| Delivery Detail: | within 7-15days after received payment |
###
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SI...T/K |
SA...T/K | PHS... | POS... | PHSB... |
| POSB... | NHS... | NOS... | CF... | CF...S |
| CM... | CM...S | CF...T | CM...T | CF...Y |
| CF...YS | CM...Y | CM...YS | XF... | XM... |
| GIR...DO | GAR...DO | GIR..UK | GAR..UK | GIR..ET 2RS |
| GAR...ET 2RS | SQZ..RS | SQ..RS | GE...E(S) | GE...ES 2RS |
| GEG...E(S) | GEG...ES 2RS | GE...LO | GK...DO | GF...DO |
| GIHO-K..DO | GIHR-K..DO | GIHN-K..DO | GE...C | GEG...C |
| PB... | GEBJ... | COM../HCOM.. | COM..T/HCOM..T | GE...ET 2RS |
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| PHS5/POS5 | SI5T/K/SA5T/K | NHS5/NOS5 | PHSB3/POSB3 | PB5/GEBK5S |
| PHS6/POS6 | SI6T/K/SA6T/K | NHS6/NOS6 | PHSB4/POSB4 | PB6/GEBK6S |
| PHS8/POS8 | SI8T/K/SA8T/K | NHS8/NOS8 | PHSB5/POSB5 | PB8/GEBK8S |
| PHS10/POS10 | SI10T/K/SA10T/K | NHS10/NOS10 | PHSB6/POSB6 | PB10/GEBK10S |
| PHS12/POS12 | SI12T/K/SA12T/K | NHS12/NOS12 | PHSB7/POSB7 | PB12/GEBK12S |
| PHS14/POS14 | SI14T/K/SA14T/K | NHS14/NOS14 | PHSB8/POSB8 | PB14/GEBK14S |
| PHS16/POS16 | SI16T/K/SA16T/K | NHS16/NOS16 | PHSB10/POSB10 | PB16/GEBK16S |
| PHS18/POS18 | SI18T/K/SA18T/K | NHS18/NOS18 | PHSB12/POSB12 | PB18/GEBK18S |
| PHS20/POS20 | SI20T/K/SA20T/K | NHS20/NOS20 | PHSB16/POSB16 | PB20/GEBK20S |
| PHS22/POS22 | SI22T/K/SA22T/K | NHS22/NOS22 | PB22/GEBK22S | |
| PHS25POS25 | SI25T/K/SA25T/K | NHS25/NOS25 | PB25/GEBK25S | |
| PHS28/POS28 | SI28T/K/SA28T/K | NHS28/NOS28 | PB28/GEBK28S | |
| PHS30/POS30 | SI30T/K/SA30T/K | NHS30/NOS30 | PB30/GEBK30S |
Advantages of Ball Bearings
What is a ball bearing? A ball bearing is a type of rolling-element bearing that utilizes balls to maintain separation between two bearing races. Its contact angle between the balls and the races helps it reduce friction between the loads. There are several advantages to ball bearings, including their ability to withstand water. Read on to learn more. Here are a few of the benefits. You can use them in your daily life, from your car to your boat.
Ball bearings reduce friction between loads
Ball bearings reduce friction between loads by constraining the relative motion between moving parts. These bearings consist of a ring of small metal balls that reduce friction between moving objects. The name "ball bearing" is derived from the verb "to bear." The lubricant within the bearing reduces friction between moving particles. In a machine, ball bearings reduce friction between moving parts and improve linear motion around a fixed axis.
These bearings are commonly used to reduce friction between loads in rotating machines. They have two tracks, one fixed to the rotating part and one stationary. The rolling balls of a ball bearing have lower friction than flat surfaces. Because of this, they are useful for bar stool bearings. They reduce friction between surfaces and maintain the separation between bearing races. Hence, minimal surface contact is possible. Ball bearings have the potential to increase the life of machines and reduce energy consumption.
Ball bearings can be as small as a wrist watch or as large as an industrial motor. They function the same way, reducing friction between loads. Among their many uses, ball bearings are essential for everyday operations. Clocks, air conditioners, fans, and automobile axles all use ball bearings. In fact, anything that uses a motor requires ball bearings. It's no wonder they're gaining popularity in industries and everyday life.
They support radial and axial loads
Radial ball bearings are used primarily for radial loads, but they also have a capacity for axial load. This load capacity is usually given as a percentage of the radial load rating. Axial load capacity is generally greater for a bearing with a larger difference between the inner and outer ring diameters. The axial load capacity is also affected by the bearing's raceway depth, with shallow raceways being more suitable for heavier axial loads.
The two main types of axial and radial loads are defined by their orientation. Axial loads apply forces in one direction while radial loads act on the opposite direction. In both cases, the bearing must support the forces that are imposed. Axial loads apply forces to a bearing in a single direction, while radial loads apply forces in both directions. Regardless of the type of load, axial and radial loads should be considered when selecting a bearing for a given application.
Angular and radial ball bearings differ in their materials. Radial ball bearings are made largely of through-hardened materials. They typically have a Rockwell hardness rating of 58 Rc. The raceways and balls of these bearings are made of 440C stainless steel. They may also contain shields and seals. SAE 52100 steel is the most common material for the raceway, while molybdenum steels are excellent for high temperatures.
They have a contact angle between the balls and the races
When comparing axial load bearings with their radial counterparts, the angular contact angle is more important. Axial load bearings, have a contact angle between the balls and the races of 35 degrees. They are suitable for axial loads and a limited radial load. The contact angle of these bearings is a result of the shape of the inner and outer rings. Each rolling element comes into contact with the inner and outer rings only at one point, forming a 30 degree angle with the radial plane. The radial force of the axial load on these bearings is therefore increased by increasing the contact angle between the balls and the races.
This contact angle determines the amount of friction between the balls and the races, and allows angular contact bearings to withstand heavy radial and thrust loads. In addition, the larger the contact angle, the greater the axial load support. Angular contact bearings come in standard imperial (inch) and metric (mm) sizes. The angular contact angle is determined by the free radial play value and the curvature of the inner track.
They are water-resistant
In addition to their water-resistant qualities, corrosion-resistant ball bearings can also protect against the damaging effects of corrosive environments. Generally, standard metals, such as steel, are susceptible to rust, which can significantly reduce their performance and extend the life of parts. However, plastics, stainless steel, and ceramics can provide corrosion-resistant ball bearings. And because these materials are much more durable, they offer other advantages, such as being easy to maintain.
Among the advantages of plastic ball bearings is their high resistance to extreme temperatures, high speeds, and corrosion. Depending on their construction, plastic bearings are often able to resist corrosion and anti-static properties. They're lightweight and inexpensive compared to steel ball bearings. CZPT Sales Corporation was established in 1987 with a modest turnover of four lacs. As of the last financial year, it has grown to 500 lacs in sales.
Other advantages of water-resistant ball bearings include corrosion resistance, which is a key consideration in many applications. While stainless steel is highly corrosion-resistant, it decreases the bearing's load-carrying capacity. Also, corrosion-resistant deep groove ball bearings are usually made with a specified internal clearance, which absorbs loss in clearance during mounting and shaft expansion. This factor affects their performance, and if these are compromised, a replacement may be necessary.
They are tough
A few things make ball bearings tough: they're made of real materials, which means that they have inherent imperfections. Grade-1 balls are made especially for high-stress applications, such as Formula One engines. Grade-3 balls, on the other hand, strike the perfect balance between performance and cost. Ceramic balls, for example, are made to spin at a high rate of 400 RPM, and they're finished with a mirror finish.
A steel carbon ball bearing is one of the toughest forms of ball bearings available. The material is incredibly strong, but the contact between the balls isn't the best. Low-carbon steel is best for linear shafting and is usually coated with a polymer to prevent damage. Steel ball bearings with moderate amounts of carbon are tough, durable, and water-resistant. They're ideal for gears, but their high-carbon steel counterparts are particularly tough and can resist corrosion.
A ceramic ball bearing is another option. This type has steel inner and outer rings but ceramic balls. Ceramic balls can withstand higher temperatures than steel and are also electrically insulating. Ceramic ball bearings also tend to be lighter and are more resistant to wear and tear. They're also ideal for applications in which grease is not an option, such as in space shuttles. Despite the fact that ceramic ball bearings are tough, they're still cheaper than steel ball bearings.
They are conductive
You may have heard the term "ball bearing" if you've studied introductory physics. What does that mean? Essentially, ball bearings are conductive because of their ability to conduct electricity. This ability is reflected in the charge distribution on the surface of the ball. Positive charges are drawn toward the positive plate, while negative charges are drawn away from the positively charged ball bearing. You may have even seen a ball bearing in action.
However, despite their conductive nature, ball bearings can still become damaged by electrical discharge. A higher voltage can cause the balls to pit, and the raceways to become uneven. These uneven surfaces will first show up as excessive noise, and eventually cause the bearing to malfunction. Fortunately, engineers have found a way to counter this problem: conductive grease. This grease enables current to flow through the ball bearing, preventing both heat and voltage buildup.
The difference between steel and ceramic ball bearings is their density. Steel bearings are more conductive than glass or hybrid ceramics. Steel ball bearings have an even grain structure and are conductive for resonance flow. When moving fast, the air surrounding the steel ball bearing carries resonance from the inner ring to the outer. This makes them ideal for high-speed resonance transfer. In addition to being conductive, glass microbeads are harder and lighter than steel.
They are used in pulley systems
Pulley systems use ball bearings to move the sprocket, which is a wheel that rotates. These bearings are installed on the center mounting hole of the pulley wheel. They protect the entire system from heat, while allowing higher speed and smooth operation. They distribute the weight of the load evenly, minimizing friction and wobbling, and ensure a smooth rotation. Ball bearings are typically made from steel and are installed inside the pulley wheel.
The moment of inertia and bearing friction are measured to within ten percent accuracy. These two variables affect the speed of the pulley system, which can lead to crashes if the weight holders are not balanced. Therefore, ball bearings are used to minimize the chance of such crashes. When you want to know more about ball bearings in pulley systems, here are the advantages they provide.
Another benefit of ball bearings in pulley systems is that they have lower friction than their solid counterparts. In order to reduce friction, however, ball bearings must be made of good materials. Some of the common ball materials are high-quality plastics and stainless steel. Good materials and clever block design are essential to minimizing friction. If you are planning to use ball bearings in your pulley system, check out the following tips and make sure you are choosing the right one for your application.