Tag Archives: metal bushing

China high quality OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Stainless Steel Iron Plastic Copper Bronze Brass Bushings define bushing

Product Description

Material available

 

Aluminum AL6061, Al6063, AL6082, AL7075, AL5052, AL6082-T6 etc.
Stainless Steel SS201,SS301, SS303, SS304, SS316, SS416 etc.
Steel mild steel, Carbon steel,12L14, 12L15,4140, 4340, Q235, Q345B, 20#, 45# etc.
Brass HPb63, HPb62, HPb61, HPb59, H59, H58,H68, H80, H90 etc.
Copper C11000,C12000,C12000 C36000 etc.
Plastic ABS, PC, PE, POM, Delrin, Nylon, Teflon, PP,PEI, Peek etc.

Surface finish

Aluminum parts Stainless Steel parts Steel parts Brass parts
Clear Anodized Polishing Zinc plating Nickel plating
Color Anodized Passivating Nickel plating chrome plating
Sandblast Anodized Sandblasting Chrome plating Electrophoresis black
Polishing Laser engraving Oxide black Oxide black
Brushing Electrophoresis black Carburized Powder coated
Chroming Oxide black Heat treatment  
Chemical Film   Powder Coated  

Customized: 

  • Unlimited order quantity

  • According to the demand of customers, according to drawings or samples production.
     

    If customers purchase a wide range of products, we can help customers to achieve one-stop procurement, for customers to save procurement costs.

    Our advantages are: resource integration, reasonable price, high quality, fast delivery.

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Material: Brass/Steel/Aluminum
Connection: Press Connection
Transport Package: Carton+Pallet
Specification: customized
Trademark: LW
Origin: China
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

plastic bush

What are the environmental benefits of using plastic bushings, and how do they contribute to sustainability?

Plastic bushings offer several environmental benefits and contribute to sustainability in various ways. Here are some of the key advantages:

  • Reduced Energy Consumption: Plastic bushings generally have lower friction coefficients compared to metal bushings, which results in reduced energy consumption. The lower friction allows for smoother operation and requires less power to overcome resistance, leading to energy savings. This can be particularly significant in applications with high-speed or continuous motion, where energy efficiency is crucial.
  • Elimination of Lubrication: Many plastic bushings are self-lubricating or require minimal lubrication. Unlike metal bushings, which often require regular lubrication to maintain optimal performance, plastic bushings can operate effectively without the need for lubricants. This eliminates the need for oil or grease, reducing the consumption of lubrication products and minimizing the associated environmental impacts, such as oil spills or the disposal of used lubricants.
  • Corrosion Resistance: Plastic bushings are generally resistant to corrosion, which can be a significant advantage in various environments. Unlike metal bushings, which may corrode and require frequent replacement, plastic bushings can withstand exposure to moisture, chemicals, and other corrosive substances. This extended service life reduces the frequency of bushing replacements, leading to less material waste and lower environmental impact.
  • Weight Reduction: Plastic bushings are typically lighter than their metal counterparts, contributing to weight reduction in machinery and equipment. The use of lighter components can result in lower energy consumption during operation, especially in applications that involve frequent acceleration or deceleration. Additionally, reduced weight can lead to more efficient transportation and decreased fuel consumption during shipping.
  • Recyclability: Many plastic bushing materials are recyclable, allowing for the recovery and reuse of the materials at the end of their service life. Plastic bushings made from recyclable materials can be collected, processed, and transformed into new products, reducing the demand for virgin materials and minimizing waste generation. Proper disposal and recycling practices contribute to a circular economy and the conservation of natural resources.
  • Noise Reduction: Plastic bushings often exhibit superior damping properties compared to metal bushings, resulting in reduced noise and vibration levels. This can be advantageous in applications where noise reduction is important, such as in residential or office environments. By minimizing noise pollution, plastic bushings contribute to improved working conditions, increased comfort, and enhanced overall environmental quality.

By utilizing plastic bushings and benefiting from their environmental advantages, industries can contribute to sustainability efforts by reducing energy consumption, minimizing lubrication requirements, extending equipment lifespan, promoting recyclability, and improving overall operational efficiency. However, it is important to note that the sustainability of plastic bushings also depends on responsible manufacturing practices, proper disposal or recycling methods, and the selection of eco-friendly materials.

plastic bush

Can I find information on the compatibility of plastic bushings with different shaft materials?

Yes, you can find information on the compatibility of plastic bushings with different shaft materials. It is important to consider the compatibility between the bushing material and the shaft material to ensure proper functioning, minimize wear, and prevent damage. Here are some sources where you can find information on the compatibility of plastic bushings with different shaft materials:

  • Manufacturer Documentation: Manufacturers of plastic bushings often provide information about the compatibility of their bushings with various shaft materials. This information may be available in their technical documentation, catalogs, or product datasheets. Look for details on recommended shaft materials, material pairings to avoid, and any specific considerations or limitations regarding compatibility.
  • Engineering Handbooks and Reference Guides: Engineering handbooks and reference guides related to tribology, materials science, or mechanical design can offer valuable insights into the compatibility of plastic bushings with different shaft materials. These resources may provide compatibility charts, tables, or guidelines based on material properties, surface finishes, lubrication requirements, and other relevant factors. Consult reputable handbooks or reference guides that cover the specific materials involved in your application.
  • Online Databases and Technical Resources: There are online databases and technical resources dedicated to providing material compatibility information. These resources often include information on the compatibility of various materials, including plastic bushings and shaft materials. Examples include the MatWeb material database or material compatibility databases provided by material science organizations. Search for reliable online resources that have information on the compatibility of plastic bushings with different shaft materials.
  • Consulting with Material Experts: If you require more specialized or specific information regarding the compatibility of plastic bushings with particular shaft materials, consider consulting with material experts or engineers who have expertise in the field of tribology or material science. These experts can provide guidance based on their knowledge and experience and help you determine the compatibility considerations for your specific application.
  • Application Experience and Case Studies: Sometimes, information on the compatibility of plastic bushings with different shaft materials can be found through application experience and case studies. Industry forums, technical publications, or case study reports may provide insights into successful material pairings and real-world examples of compatibility. Engage with industry professionals, participate in relevant forums or communities, and explore technical literature to learn from others’ experiences and gain valuable information on material compatibility.

When assessing the compatibility between plastic bushings and shaft materials, factors such as material hardness, surface finish, lubrication, operating conditions, and expected loads should be taken into account. It is important to choose a plastic bushing material that is compatible with the specific shaft material to ensure proper functioning, minimize wear, and achieve the desired performance and lifespan of the bushing.

By utilizing the available resources and expertise, you can find information on the compatibility of plastic bushings with different shaft materials, enabling you to make informed decisions and select the appropriate bushing and shaft combination for your application.

plastic bush

What are the key considerations when selecting plastic bushings for corrosive environments?

When selecting plastic bushings for corrosive environments, it’s essential to consider several key factors to ensure the longevity and performance of the bushings. Corrosive environments can pose significant challenges to materials, including degradation, chemical attack, and loss of mechanical properties. Here are the key considerations when selecting plastic bushings for corrosive environments:

  • Chemical Compatibility: The first and foremost consideration is the chemical compatibility of the plastic material with the corrosive substances present in the environment. Different plastics have varying degrees of resistance to specific chemicals. It’s crucial to identify the types of corrosive chemicals, acids, bases, solvents, or other substances that the bushings will be exposed to and choose a plastic material that offers excellent resistance to those specific chemicals.
  • Material Selection: Certain plastic materials are known for their superior chemical resistance properties. For corrosive environments, consider using plastic materials such as PTFE (Polytetrafluoroethylene), PVDF (Polyvinylidene Fluoride), PPS (Polyphenylene Sulfide), or ETFE (Ethylene Tetrafluoroethylene). These materials offer excellent resistance to a wide range of corrosive chemicals and can withstand harsh environments.
  • Temperature Range: In addition to chemical compatibility, consider the temperature range of the corrosive environment. Some plastics may have temperature limitations and can degrade or lose their chemical resistance properties at elevated temperatures. Ensure that the selected plastic material can withstand the temperature range of the corrosive environment without compromising its performance or chemical resistance.
  • Load and Wear Requirements: Evaluate the load and wear requirements of the application. Corrosive environments may involve abrasive particles or high loads that can accelerate wear and reduce the lifespan of the bushings. Select plastic materials that offer excellent wear resistance and can withstand the specific load conditions of the application.
  • Sealing and Contamination: Corrosive environments often involve the presence of moisture, gases, or contaminants. Consider whether the bushings need to provide sealing properties to prevent ingress of corrosive substances or contamination. Some plastic bushings can be designed with additional sealing features to enhance protection against corrosive elements.
  • UV and Weather Resistance: If the corrosive environment involves exposure to sunlight or outdoor weather conditions, consider the UV resistance and weatherability of the plastic material. Some plastics may degrade or experience color fading when exposed to prolonged sunlight or extreme weather conditions. Choose a plastic material that offers good UV resistance and weather resistance properties if applicable.
  • Manufacturer Expertise: Work closely with manufacturers or suppliers who have expertise in providing plastic bushings for corrosive environments. They can offer guidance on material selection, design considerations, and provide specific recommendations based on their experience and knowledge of different plastic materials and their performance in corrosive environments.

It’s important to thoroughly assess the corrosive environment and consult with experts to ensure the right plastic material is selected for the bushings. Conduct compatibility tests, review material datasheets, and consider real-world application experiences to make an informed decision. Additionally, proper installation, regular inspection, and maintenance practices should be followed to maximize the performance and lifespan of the plastic bushings in corrosive environments.

By considering these key factors, you can select plastic bushings that are well-suited for corrosive environments, providing reliable and long-lasting performance even in the presence of corrosive substances.

China high quality OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Stainless Steel Iron Plastic Copper Bronze Brass Bushings define bushing China high quality OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Stainless Steel Iron Plastic Copper Bronze Brass Bushings define bushing
editor by CX 2024-05-09

China high quality Machining Shock Absorber Bushing/Bearing Bush Custom Metal Nylon Plastic PP Sleeve Bushing bushing and ball joint

Product Description

Product Description

Our advantages:30 Years OEM&ODM One-Stop Service in making various kinds of metal parts with a wide range from precision metal parts to large sheet metal stamping parts. According to customer’s order quantity, we offer the most cost-effective way to your project, we can use laser cutting, single-shot or continuous progressive die automated production.we make various kinds of precision stamping parts in different material such as carbon steel, galvanized steel, stainless steel 304, 316, aluminum, copper, etc.
We now have 100 customers from all over the world.

1. We have own factory and 80% of staff in our company worked for more than 10 years.
2. We provide a competitive price.
3. High precision, tolerance can be within ±0.01mm.
4. 14 years’ export experience.
5. Small order also is welcomed.
6. We can also provide one-stop service, including mold and assembly.
7. NDA apply to all customers.
Workshop

 

Mold Material DC01,DC04,DC06
Tooling life Time 100K times
Tooling Material 1) AL1060, AL6061, AL6061, AL5052
2) Steel, mild steel, SPCC
3) SS201, SS303, SS304, SS316, SS316L
4) SPTE, galvanized sheet
5) Brass, copper
Surface Treatment Anodized, powder coating, lacquer coating, black oxide
Salt and spy test From 72-480 h
Size 1) According to customers’ drawings
2) According to customers’ samples
Drawing Format step, dwg, igs, pdf
Certificates ISO 9001:2015 & IATF 16949
Payment Term T/T, L/C, Trade Assurance

Car product diagram bushing sleeve
Laser blanking
Maching
Copper plating

Packing workshop
Customer be at our workshop 

Warehouse

1.Do you provide samples ? is it free or extra ?

Yes, we could offer the sample for free charge but do not pay the cost of freight.
2. How about the shipping cost?
The cost of shipping depends on the method you choose to obtain the goods. Express delivery is usually the fastest method, but it is also the most expensive method. Shipping is the best solution for large quantities. For the exact shipping cost, we can only provide you with detailed information after knowing the quantity, weight and dimension.
3. Do you have Stock productions to sell?
Yes, of course. But we also offer OEM service. The mold is customized, Please send us some drawing.
What information do you want to know if i want to get a quotation?
a). The application for your products.
b). Special package methods if you needs.
4. Do you inspect the finished products?
Yes. Each step of products will be carried out inspection by QC department until shipping
5. How long is your delivery time?
Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to
quantity.

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After-sales Service: Half Year
Warranty: Half Year
Condition: New
Certification: ISO9001
Standard: DIN, ASTM, GB
Customized: Customized
Samples:
US$ 17/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

plastic bush

Are there specific guidelines for recycling or disposing of plastic bushings at the end of their life cycle?

When it comes to recycling or disposing of plastic bushings at the end of their life cycle, it is important to follow specific guidelines to promote environmental sustainability. Here’s a detailed explanation:

1. Recycling:

– Check with local recycling facilities or waste management organizations to determine if plastic bushings are accepted for recycling in your area. Recycling options may vary depending on the type of plastic material used in the bushings.

– If recycling is available, separate the plastic bushings from other components or materials before recycling. Remove any metal or non-recyclable parts attached to the bushings, if applicable.

– Clean the plastic bushings to remove any contaminants or residues that could affect the recycling process. Follow any specific cleaning instructions provided by the recycling facility or refer to general plastic cleaning guidelines.

– Consider contacting the manufacturer or supplier of the plastic bushings for guidance on recycling options. They may have information on specific recycling programs or initiatives available for their products.

2. Disposal:

– If recycling is not available or feasible, dispose of plastic bushings according to local waste management regulations. Check with local authorities or waste disposal facilities for guidelines on disposing of plastic components.

– In many cases, plastic bushings can be disposed of as regular non-recyclable waste. However, it’s essential to follow any specific instructions provided by local regulations or waste management authorities.

– If the plastic bushings contain any hazardous or toxic substances, such as heavy metals or chemicals, follow proper disposal procedures to prevent environmental contamination. Contact local hazardous waste facilities for guidance on disposing of such materials safely.

3. Manufacturer or Supplier Guidance:

– Reach out to the manufacturer or supplier of the plastic bushings for guidance on proper recycling or disposal methods. They may have specific recommendations or resources available to support environmentally responsible end-of-life management of their products.

– Manufacturers or suppliers who prioritize sustainability may have implemented take-back programs or recycling initiatives for their plastic bushings. Inquire about any available programs and follow their instructions for returning or recycling the bushings.

4. Consider Reuse or Repurposing:

– Before recycling or disposing of plastic bushings, consider whether they can be reused or repurposed in any way. For example, they might serve as components in DIY projects, crafts, or non-critical applications.

– If the plastic bushings are still in good condition and meet the requirements of another application, consider donating or selling them to individuals or organizations that can make use of them.

– Reusing or repurposing plastic bushings can help extend their lifespan and reduce the overall waste generated.

By following specific recycling or disposal guidelines, you can ensure that plastic bushings are managed in an environmentally responsible manner at the end of their life cycle. Recycling, proper disposal, seeking manufacturer guidance, and considering reuse or repurposing are important steps to promote sustainability and reduce the environmental impact of plastic waste.

plastic bush

What are the common sizes and dimensions of plastic bushings, and how do I choose the right one for my application?

When selecting plastic bushings, it’s important to consider the appropriate sizes and dimensions to ensure compatibility with your application. Common sizes and dimensions of plastic bushings can vary depending on the specific industry and application requirements. Here’s some information to help you understand the common sizing aspects and guide you in choosing the right plastic bushing for your application:

  • Inner Diameter (ID): The inner diameter refers to the measurement of the opening of the bushing, which corresponds to the shaft or pin it will be mounted on. It is crucial to select a plastic bushing with an inner diameter that matches the diameter of the shaft or pin in your application. Measuring the shaft or pin accurately will help you determine the appropriate inner diameter of the bushing.
  • Outer Diameter (OD): The outer diameter refers to the measurement of the outside surface of the bushing. It corresponds to the bore or housing in which the bushing will be inserted. Ensure that the outer diameter of the plastic bushing matches the dimensions of the bore or housing to achieve a proper fit and alignment.
  • Length: The length of the plastic bushing is the distance between the two ends of the bushing. It determines the amount of space occupied by the bushing within the application. Consider the available space and clearance in your application to select a plastic bushing with an appropriate length that fits without interference.
  • Flange or Collar: Some plastic bushings may have a flange or collar at one end, which provides additional support or acts as a stopper. The presence of a flange or collar can affect the overall dimensions and installation requirements of the bushing. Determine if your application requires a bushing with a flange or collar, and consider the additional dimensions it adds to the overall size.
  • Wall Thickness: The wall thickness of the plastic bushing refers to the thickness of the material between the inner and outer surfaces of the bushing. It plays a role in determining the strength and load-bearing capacity of the bushing. Consider the expected loads and forces in your application to select a bushing with an adequate wall thickness to handle the required load requirements.

In order to choose the right plastic bushing for your application, it is recommended to follow these steps:

  1. Identify the specific dimensions and requirements of your application, such as the required inner diameter, outer diameter, length, and any additional considerations like flanges or collars.
  2. Refer to the manufacturer’s documentation, catalogs, or product datasheets to identify plastic bushings that match your required dimensions and meet the performance criteria for your application.
  3. Consider the load capacity, speed limitations, temperature range, and other relevant factors specified by the manufacturer to ensure the selected bushing meets the performance requirements of your application.
  4. If necessary, consult with application engineers or technical experts who can provide guidance based on their experience and knowledge of plastic bushings.
  5. Procure a sample or a small quantity of the selected plastic bushing to test its fit, function, and performance in your specific application before proceeding with larger-scale implementation.

By considering the common sizes and dimensions of plastic bushings and following the selection process outlined above, you can choose the right plastic bushing that fits your application’s requirements, ensuring proper functionality and performance.

plastic bush

Where can I find reliable suppliers for high-quality plastic bushings for industrial applications?

If you’re looking for reliable suppliers of high-quality plastic bushings for industrial applications, there are several avenues you can explore. Here are some sources where you can find reputable suppliers:

  • Online Industrial Directories: Online industrial directories such as Thomasnet, GlobalSpec, or Kompass provide comprehensive listings of suppliers, manufacturers, and distributors of various industrial products, including plastic bushings. These directories often allow you to filter search results based on location, industry, certifications, and other criteria, helping you find reliable suppliers that meet your specific requirements.
  • Trade Shows and Exhibitions: Attending trade shows or exhibitions related to industrial machinery, engineering, or maintenance can be an excellent way to connect with reputable suppliers. These events often feature booths or exhibits by manufacturers and suppliers of plastic bushings. You can engage in direct conversations, see product samples, and gather information about the supplier’s capabilities and product quality.
  • Industry Associations and Networks: Industry associations or networks related to your specific industrial application or sector can provide valuable resources and connections to reliable suppliers. These associations often have membership directories or supplier databases that can help you identify reputable suppliers of plastic bushings. Additionally, reaching out to fellow industry professionals through these networks can provide recommendations and insights on reliable suppliers they have worked with.
  • Manufacturer Websites: Many manufacturers of plastic bushings have their own websites where they showcase their products and provide information about their company and capabilities. Visiting these websites allows you to learn more about the manufacturer’s quality standards, certifications, production processes, and product range. Manufacturer websites often have contact information or inquiry forms that you can use to get in touch with them directly.
  • Referrals and Recommendations: Seek referrals or recommendations from colleagues, industry professionals, or machinery manufacturers who have experience in using plastic bushings. Personal recommendations can provide valuable insights into the reliability, quality, and customer service of specific suppliers. People who have had positive experiences with suppliers in the past can point you in the right direction.
  • Online Marketplaces: Online marketplaces such as Alibaba, Amazon Business, or Global Sources often feature a wide range of suppliers offering plastic bushings. These platforms provide user reviews, ratings, and detailed supplier profiles, helping you assess the reliability and quality of potential suppliers. However, exercise caution and perform due diligence when dealing with suppliers on online marketplaces to ensure their credibility and product quality.

When evaluating suppliers, consider factors such as their industry experience, reputation, product quality, certifications, delivery capabilities, and customer service. Request samples or product specifications to assess the quality of the plastic bushings they offer. It’s also beneficial to establish clear communication channels with the supplier to address any questions or concerns you may have.

By exploring these sources and conducting thorough research, you can find reliable suppliers of high-quality plastic bushings for your industrial applications, ensuring that you receive products that meet your requirements and perform optimally in your machinery.

China high quality Machining Shock Absorber Bushing/Bearing Bush Custom Metal Nylon Plastic PP Sleeve Bushing bushing and ball joint China high quality Machining Shock Absorber Bushing/Bearing Bush Custom Metal Nylon Plastic PP Sleeve Bushing bushing and ball joint
editor by CX 2024-05-03

China wholesaler High Precision Plastic Guide Bush Metal Bushing for Mould Parts manufacturer

Product Description

 

High Precision Plastic Xihu (West Lake) Dis. Bush metal bushing for mould parts

High Quality Mold Parts Slide Holding Device SLLK:

1.This type slide holding devices are mainly usde in large-scale retainer construction.

2.Face to face design, to reduce the pressure of surface and be effective to protect retainer construction from demage.

 

Mold type  Plastic injection mould,Die-casting injection mould,Precision machining
Industry Automotive,Medical,Cosmetics,Mobile Phone,Stationery
Mould size According to customer requirements
Material DAC, SKH-51, HPM38, STAVAX, 1.2343, 1.2344, 1.2767, 8407, ect
Standard DEM,HASCO,Misumi,Puch ect
Surface Mirro polished,Technical Polished,Mold Tech texture, Nitriding ,
plating ,VDI texture ect
Delivery 10-15 days after payment
Shipment Sea shipment,Air shipment
Package in bubble bag,plastic bag,carton,Customized
QC System 100% inspection before shipment
Equipment The main processing equipment: ZheJiang  centerless grinder,
within / outside the original red molding machine, 
surface grinder, table lathe, high-speed lathes, 
CNC lathes, sparks machine ect

HangZhou Godo Precision Parts Co., Ltd. Our company supplies different kinds of products. High quality and favorable price. We’re pleased to get your Inquiry and we will come back to as soon as possible. We stick to the principle of “quality first, service first, continuous improvement and innovation to meet the customers” for the management and “zero defect, zero complaints” as the quality objective. To perfect our service, we provide the products with good quality at the reasonable price.

Similar product:

How to order:
(1) Send us drawing or standard code & size
(2) We quote you within 1 day (except Saturday and Sunday)
(3) Get agreement with price and CHINAMFG PO or Contract
(4) Make payment in advance
(5)If sample required,we will make sample first.

Why choose us:
*-Quality: Qualified Raw Material
Reliable Machines
Mature process
Skilful employees
Strict Quality Control
*-Price: Competitive price /Reasonable margin
*-Service: Any inquiries replied within 24 hours
Quick Delivery
Quick Response 
Warranty: Depend on product type

Our company:

FAQ:

1.Q: Are you a factory or a trading company?
A: We are the factory.

2.Q:Can You Provide free Sample?
 
A:Yes,we can provide 1-3 piece free sample for standard parts to customer for testing.
 
3.Q:How much does the parts cost?
 
A:We will check the drawing with requirement carefully, and send our competitive offer according to customer’s requirement.

4. Q:How to order?

(1) Please provide drawings or samples (non-standard items) or serial numbers (standard items).
The
If the document is intellectual property and confidential, we can CHINAMFG the NDA.
The
(2) Immediately evaluate drawings and requirements.
The
(3) We try to send the quote back to the customer on the same day.
The
(5) If we both agree to accept the quotation, we will accept 30% of the deposit before the order and 70% of the balance at the time of delivery for the foreign exchange trading rules. Then we can start the manufacturing or sampling process.
The
(6) Our production time usually takes 7 working days and sample processing takes 3-5 days. This depends on the order volume and the product itself.

5.Q: How do I know the delivery?
A: We will notify you of the tracking number after receiving the freight forwarder. We also keep updating your latest shipping information.
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Condition: New
Certification: CE, RoHS, GS, ISO9001
Standard: DIN
Customized: Customized
Material: SKD61/ HRC42-46
Application: Mold Part
Customization:
Available

|

Customized Request

plastic bush

Where can I find online communities or forums discussing experiences with plastic bushings in specific applications?

Online communities and forums dedicated to discussing experiences with plastic bushings in specific applications can provide valuable insights and knowledge-sharing opportunities. Here are some places where you can find such communities:

  • Engineering and Mechanical Forums: Online forums and communities focused on engineering, mechanical design, or specific industries often have dedicated sections or threads where professionals discuss various components, including plastic bushings. Platforms like Reddit, Stack Exchange, or specialized engineering forums allow users to post questions, share experiences, and seek advice from others in the field. Explore relevant subreddits or forums and search for topics related to plastic bushings or specific applications to find discussions and experiences shared by community members.
  • Industry-Specific Forums: Depending on the specific application or industry you are interested in, there may be industry-specific forums or communities where professionals gather to discuss challenges, solutions, and experiences related to equipment components. These forums can be industry-specific platforms, professional association websites, or dedicated online communities. For example, if you are looking for discussions on plastic bushings used in automotive applications, you might find relevant forums on automotive engineering websites or automotive enthusiast communities.
  • LinkedIn Groups: LinkedIn, a professional networking platform, hosts numerous industry-specific groups where professionals share insights, ask questions, and discuss various topics. Search for groups related to your specific application or industry that focus on mechanical engineering, equipment design, or maintenance. Join these groups and actively participate in discussions related to plastic bushings. Engaging with professionals in your field of interest can provide valuable perspectives and experiences.
  • Online Machinery and Equipment Communities: Online communities or platforms dedicated to machinery and equipment enthusiasts or professionals can also be a source of information on plastic bushings. These communities may have dedicated sections or discussions related to components, maintenance, or troubleshooting. Explore machinery or equipment-focused websites, forums, or social media groups to find discussions or experiences shared by individuals who have worked with plastic bushings in specific applications.
  • Manufacturer Websites and Support Forums: Manufacturers of plastic bushings sometimes have their own websites with support forums or discussion boards where users can post questions, share experiences, and seek advice. These forums may be specific to the manufacturer’s product line or cover broader topics related to plastic bushings. Visit the websites of manufacturers that produce the plastic bushings you are interested in and look for community sections or support forums where you can engage with other users and professionals.

When participating in online communities or forums, it’s important to respect community guidelines, ask specific questions, and provide relevant information about your application to receive targeted responses. Engaging with experienced professionals and learning from their experiences can help you gain valuable insights into the use of plastic bushings in specific applications and make informed decisions for your own projects.

plastic bush

Can I get guidance on selecting plastic bushings based on factors like load capacity, speed, and temperature?

Yes, you can obtain guidance on selecting plastic bushings based on factors such as load capacity, speed, and temperature. Considering these factors is crucial for choosing the appropriate plastic bushings that can withstand the specific operating conditions of your application. Here are some sources that can provide guidance on selecting plastic bushings:

  • Manufacturer Documentation: Manufacturers of plastic bushings often provide technical documentation, catalogs, or product datasheets that include information on load capacity, speed limits, and temperature ratings. These resources typically outline the performance characteristics and specifications of different bushing materials and can guide you in selecting the most suitable bushings for your application. Visit the websites of reputable manufacturers or contact their customer support for access to these resources.
  • Engineering Handbooks and Reference Guides: Engineering handbooks and reference guides related to mechanical design, tribology, or materials science can offer valuable guidance on selecting plastic bushings. These resources often provide formulas, charts, and guidelines for calculating load capacity, considering speed limitations, and understanding temperature effects on various materials. Look for industry-standard handbooks or reference guides that cover topics relevant to your application and consult the sections on bushing selection.
  • Industry Associations and Standards Organizations: Industry associations and standards organizations in the machinery, automotive, or related sectors may have published guidelines or standards for selecting plastic bushings based on load capacity, speed, and temperature considerations. Visit their websites or contact them directly to inquire about any available resources or recommendations. These organizations often have technical committees and experts who can provide valuable guidance based on industry best practices.
  • Consulting with Application Engineers: If you require more personalized guidance, consider consulting with application engineers or technical experts who have expertise in the field of bushing selection. Application engineers can assess your specific application requirements, including load capacity, speed, and temperature, and make recommendations based on their experience and knowledge. Reach out to plastic bushing manufacturers, suppliers, or engineering consulting firms to inquire about their consulting services.
  • Online Forums and Communities: Participating in online forums and communities focused on machinery, engineering, or tribology can provide access to collective knowledge and experiences of professionals in the field. Engage in discussions, ask questions, and seek guidance on selecting plastic bushings based on load capacity, speed, and temperature requirements. Experienced members of these communities can often provide practical insights and recommendations.

When selecting plastic bushings, it’s important to consider not only the load capacity, speed, and temperature requirements but also factors such as the specific application environment, chemical compatibility, and maintenance considerations. It’s recommended to gather information from multiple sources and consult with experts to ensure the most suitable selection for your application.

By utilizing the available guidance and expertise, you can make informed decisions when selecting plastic bushings, considering factors such as load capacity, speed limits, and temperature requirements, thereby optimizing the performance and reliability of your machinery or equipment.

plastic bush

Are there video tutorials on the proper installation and maintenance of plastic bushings in various machinery?

Yes, there are video tutorials available that provide guidance on the proper installation and maintenance of plastic bushings in various machinery. These video tutorials can be valuable resources for understanding the correct procedures and best practices to ensure optimal performance and longevity of the bushings. Here are some ways to access video tutorials on the installation and maintenance of plastic bushings:

  • Manufacturer Websites: Many manufacturers of plastic bushings provide video tutorials on their official websites. These videos are often created by the manufacturers themselves and offer detailed instructions specific to their products. Visit the websites of reputable plastic bushing manufacturers and look for their resources section or video library to find relevant installation and maintenance tutorials.
  • Online Video Platforms: Video-sharing platforms such as YouTube, Vimeo, and Dailymotion host a vast amount of instructional content, including tutorials on the installation and maintenance of various components, including plastic bushings. You can use the search function on these platforms and enter relevant keywords such as “plastic bushing installation” or “plastic bushing maintenance” to find videos created by experts or enthusiasts in the field.
  • Industrial Associations and Organizations: Industry-specific associations and organizations often provide educational resources for professionals in the field. Visit the websites of these associations or organizations related to the machinery or industrial sector you are interested in and look for any available video tutorials or instructional materials on plastic bushing installation and maintenance.
  • Online Forums and Communities: Participating in online forums and communities dedicated to machinery, engineering, or related topics can be a valuable source of information. Members of these communities often share their experiences, tips, and video tutorials on various aspects of machinery maintenance, including the installation and maintenance of plastic bushings. Engage in discussions, ask questions, and seek recommendations for video tutorials from experienced members.
  • Training Courses and Webinars: Some organizations offer online training courses or webinars on machinery maintenance and component installation, which may include specific modules on plastic bushings. These courses often provide comprehensive guidance and may include video demonstrations or tutorials as part of the learning materials. Look for training providers or educational platforms that offer courses related to machinery maintenance and inquire if they cover topics related to plastic bushing installation and maintenance.

When accessing video tutorials on the installation and maintenance of plastic bushings, it’s essential to prioritize reliable and reputable sources. Check the credentials of the video creators, read user reviews or comments, and ensure that the information provided aligns with industry best practices. Additionally, always refer to the manufacturer’s guidelines and recommendations specific to the plastic bushings you are working with, as different products may have unique installation and maintenance requirements.

By utilizing video tutorials and instructional materials, you can gain valuable insights into the proper installation and maintenance procedures for plastic bushings in various machinery, helping you ensure the correct handling and care of these components.

China wholesaler High Precision Plastic Guide Bush Metal Bushing for Mould Parts manufacturer China wholesaler High Precision Plastic Guide Bush Metal Bushing for Mould Parts manufacturer
editor by CX 2024-04-23

China Custom OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Iron Plastic Copper Bronze Brass Bushings bushing arm

Product Description

 

Product Description

Copper and Copper Alloy Casting Methods

Many existing methods of producing copper base alloy castings may be broadly subdivided into 6 separate headings as follows:
1. Sand casting and CO2 process
2. Shell molded casting
3. Die-casting
4. Chill casting
5. Centrifugal casting
6. Continuous casting
Other processes include precision investment casting and plaster mould casting.

Product Parameters

 

Material grade
(GB)		 Main features Applications
ZCuPb10Sn10 Lubrication performance, wear resistance and corrosion resistant performance is good, suitable for bimetal casting materials Surface pressure is high, and there is the lateral pressure of the sliding bearing, such as rolling rolling, vehicle use bearing, load peaks 60 mpa hit parts, as well as the highest CHINAMFG of 100 mpa bimetallic bearing bush of the internal combustion engine, and the piston pin sets, lining, etc.
ZCuPb15Sn8 Under the condition of lack of lubricant and use water quality lubricants, sliding and lubricating, free cutting, casting performance is poor, for dilute sulfuric acid corrosion resistant performance is good Surface pressure is high, and the lateral pressure of bearing, copper cooling pipe can be made from cold rolling mill, impact resistance load of up to 50 mpa parts, internal combustion engines of bimetallic bearing, mainly used for the biggest load of 70 mpa of piston pin set, acid-proof accessories
ZCuPb20Sn5 At higher sliding performance, in the absence of a lubricating medium and water as medium are particularly good self-lubricating performance suitable for bimetal casting material, sulfuric acid corrosion resistance, easy cutting, casting performance is poor High sliding speed of the bearing, and crusher, water pump, cold rolling mill bearings, piston pin load of 70 mpa
ZCuPb30 Have good self-lubrication, free cutting, casting performance is poor, easy to produce the gravity segregation High sliding velocity of bimetallic bearing shell, wearing parts, etc.
ZCuZn25Al6Fe3Mn3 With high mechanical properties, the casting performance is good, good corrosion resistance, has a tendency to stress corrosion Suitable for high strength, wear parts, such as bridge plate, nut, screw, wear-resistant plate, the slider, and worm gear, etc
 
ZCuZn26Al4Fe3Mn3 With high mechanical properties, the casting performance is good, in the air, water, and seawater corrosion resistance is good, can be welded Require high strength, corrosion resistant parts
ZCuZn38Mn2Pb2 Have higher mechanical properties and good corrosion resistance, abrasion resistance, good cutting performance General purpose structure, ship, instrument appearance, simple casting using such as sleeve, sleeve, bearings, slider, etc
ZCuZn40Mn3Fe1 With high mechanical properties, good casting properties and machinability, and in the air, water, and water has good corrosion resistance, has a tendency to stress corrosion cracking Seawater corrosion parts, pipe fittings and under 300 °C, manufacturing and other large Marine propeller castings
ZCuZn33Pb2 Structural material, feed temperature is 90 °C when good oxidation resistance, electrical conductivity of about 10 ~ 14 ms/m The shell of gas and water supply equipment, machinery manufacturing, electronics, precision instruments and optical instruments of component parts
Other standard and material ASTM, JIS, AISI, EN, BS;
Manganese brass: C86300 and etc.;
Tin bronze: C83600, C93200, CuSn12, CuSn7Zn4Pb7 and etc.;
Aluminum Bronze: C62900, C95400, C95500, CuAl10Fe5Ni5 and etc..

 

Specification Customized Bronze/Brass/Copper Alloy Centrifugal Casting Bushing with oil groove in China
Material Stainless steel, Alloy Steel, Brass, Copper, Aluminum, Aluminum alloy, Iron
Machining CNC machining center, CNC lathe
Casting tolerance IT5 – IT7,CT5-7
Machining tolerance +/- 0.005mm,ISO2768-f,ISO-mk
Heat treatment Solid solution annealed, quench and tempering
Weight range 0.1Kg-120Kg
Dimensions  ≤1200mm×800mm×400mm
Surface finish Ra 1.6-Ra 3.2
Finish Polishing ,Shoot blasting ,Glass bead sand blasting ,etc.

 

item

Customized copper casting

Place of CHINAMFG

China

 

ZheJiang

Brand Name

CXYS

Model Number

CXYS-ZT001

Application

Shaft, gear,bearing

Weight

Depends on customers’ technical drawing

Dimensions

Customized

Grade

Tin bronze, lead bronze, aluminum bronze, aluminum brass, manganese brass, lead brass, silicon brass

Alloy Or Not

Non-Alloy

Powder Or Not

Not Powder

Cu Content (%)

56%-89%

Processing Service

Casting

Color

Yellow

Shape

Customer’s Demand

Material

copper and brass

MOQ

1 PC

Our Advantages

 

9 THINGS TO KNOW ABOUT CASTING COPPER ALLOYS

Cast copper is a versatile material with a variety of alloys. The metal is used in plumbing fixtures, ship propellers, power plant water impellers and bushing and bearing sleeves because it is easy to cast, has a long history of successful use, is readily available from a multitude of sources, can achieve a range of physical and mechanical properties and is easily machined, brazed, soldered, polished or plated. In the U.S., copper accounts for approximately 2.8% of total casting production, according to the 2018 World Census of Casting Production reported by Modern Casting magazine. Following are 10 qualities of cast copper alloys design engineers should know.

1. Almost all copper alloys retain their mechanical properties at low temperatures. 

Typical mechanical properties of copper include good corrosion resistance, impact toughness, superior thermal and electrical conductivity, and the ability to inhibit marine organism growth.

2. All copper alloys can be produced via sand casting. 

Other casting methods conducive to copper alloys include centrifugal, continuous, permanent mold, investment and diecasting. The choice of alloy and casting method determines the mechanical and physical properties, section size, wall thickness and surface finish that can be achieved.

3. Leaded copper alloys still have several industrial applications

While leaded alloys are no longer used in potable water applications, they are still useful for other instances where low friction and wear rates are desired. For instance, high-leaded tin bronzes are cast into sleeve bearings and exhibit lower wear rates than steel.

4. As a class, cast copper-based alloys are easy to machine (especially when compared to stainless steels and titanium, their main competitors for corrosion resistance). 

Leaded copper-base alloys are the easiest to machine. These alloys are free-cutting and form small, fragmented chips while generating little heat. Next in order of machinability are moderate to high-strength alloys with second phases in their microstructures, such as unleaded yellow brasses, manganese bronzes and silicon brasses and bronzes. These alloys form short, brittle, tightly curled chips that tend to break into manageable segments. While the surface finish on these alloys will be good, the cutting speed will be lower and tool wear will increase.
The most difficult copper-base alloys for machining are the single-phase alloys such as high conductivity copper, chromium copper, beryllium copper, aluminum bronze and copper-nickel. Their general tendency during machining is to form long, stringy chips that interfere during high-speed machining operations. In addition, pure copper and high-nickel alloys tend to weld to the tool face, impairing surface finish.  

5. Post-casting processing can further enhance cast copper parts’ appeal. 

Secondary steps such as polishing, plating, soldering, brazing and welding can be performed on cast copper alloys for improved surface finish and high tolerance control.

Both gas-tungsten-arc and gas-metal-arc can produce X-ray quality welds when repairing minor defects in copper castings. Shielded-metal-arc welding also can be used, but the method is more difficult to control. Oxyacetylene welding mainly is used to join thin sections. Electron beam welding produces precise welds of high quality in both oxygen-free and deoxidized copper.

In general, alloys containing appreciable amounts of lead cannot be welded, as the lead remains liquid after the weld solidifies, forming cracks in high stress fields. All cast copper alloys can be brazed and soldered to themselves and to steel, stainless steel and nickel-base alloys. Even leaded copper alloys can be brazed, but the conditions must be controlled.

Copper phosphorous alloys, silver-based brazing alloys and copper-zinc alloys are most often used as filler metals. Gold-based alloys are used for electrical applications, and tin-based solders are used for household plumbing.

The heat of brazing may cause some loss of strength in heat-treated copper alloys, but special techniques have been developed to remedy the problem. When necessary, the entire brazed casting can be heat treated to produce a uniform structure. The corrosion resistance of copper-base alloys is not affected by brazing, except in special situations.

6. Cast copper comes in a wide range of alloy choices, making it a suitable candidate for many applications, depending on design loads and environment corrosivity.

7. Designing for cast copper alloys requires careful plHangZhou for thick and thin sections. 

Using both should be avoided, but when both are necessary, the thicker section should always be blended or tapered gradually into the thinner one. Thick-to-thin section design becomes an even larger problem for copper-base alloys with wide freezing ranges such as red brasses, tin bronzes and, to some extent, the medium freezing range alloys such as the yellow brasses. These alloys, which account for the highest level of casting production, do not solidify directionally. While proper risering helps combat this, it doesn’t have the same effect as directional solidification. 

To counteract the solidification issues with wide-freezing range copper alloys, metalcasters use chills and chromite and zircon sand cores to promote the proper solidification. Chilling these sections can be more effective than using a riser, though each of these tools increases the cost of a finished casting.

8. Whenever possible, L, T and X intersections should be avoided. 

When T sections cannot be avoided, adverse effects can be minimized by providing generous radii at corners and making the arms unequal in thickness. Additionally, “dimpling” (a small indent at the top of the T’s intersection) can help reduce the severity of hot spots. X intersections have particularly adverse effects in copper castings. They are almost always avoidable, though, by converting an X intersection into 2 offset T sections, for example.

9. Costs are comparable to other metals due to high yield, low machining costs and little requirement for surface coatings, such as paint. 

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Type: Clay Dry Sand
Casting Method: Directional Crystallization
Sand Core Type: Resin Sand Core
Application: Machinery Parts
Machining: CNC Machining
Material: Copper and Copper Alloy
Samples:
US$ 5000/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

plastic bush

What are the environmental benefits of using plastic bushings, and how do they contribute to sustainability?

Plastic bushings offer several environmental benefits and contribute to sustainability in various ways. Here are some of the key advantages:

  • Reduced Energy Consumption: Plastic bushings generally have lower friction coefficients compared to metal bushings, which results in reduced energy consumption. The lower friction allows for smoother operation and requires less power to overcome resistance, leading to energy savings. This can be particularly significant in applications with high-speed or continuous motion, where energy efficiency is crucial.
  • Elimination of Lubrication: Many plastic bushings are self-lubricating or require minimal lubrication. Unlike metal bushings, which often require regular lubrication to maintain optimal performance, plastic bushings can operate effectively without the need for lubricants. This eliminates the need for oil or grease, reducing the consumption of lubrication products and minimizing the associated environmental impacts, such as oil spills or the disposal of used lubricants.
  • Corrosion Resistance: Plastic bushings are generally resistant to corrosion, which can be a significant advantage in various environments. Unlike metal bushings, which may corrode and require frequent replacement, plastic bushings can withstand exposure to moisture, chemicals, and other corrosive substances. This extended service life reduces the frequency of bushing replacements, leading to less material waste and lower environmental impact.
  • Weight Reduction: Plastic bushings are typically lighter than their metal counterparts, contributing to weight reduction in machinery and equipment. The use of lighter components can result in lower energy consumption during operation, especially in applications that involve frequent acceleration or deceleration. Additionally, reduced weight can lead to more efficient transportation and decreased fuel consumption during shipping.
  • Recyclability: Many plastic bushing materials are recyclable, allowing for the recovery and reuse of the materials at the end of their service life. Plastic bushings made from recyclable materials can be collected, processed, and transformed into new products, reducing the demand for virgin materials and minimizing waste generation. Proper disposal and recycling practices contribute to a circular economy and the conservation of natural resources.
  • Noise Reduction: Plastic bushings often exhibit superior damping properties compared to metal bushings, resulting in reduced noise and vibration levels. This can be advantageous in applications where noise reduction is important, such as in residential or office environments. By minimizing noise pollution, plastic bushings contribute to improved working conditions, increased comfort, and enhanced overall environmental quality.

By utilizing plastic bushings and benefiting from their environmental advantages, industries can contribute to sustainability efforts by reducing energy consumption, minimizing lubrication requirements, extending equipment lifespan, promoting recyclability, and improving overall operational efficiency. However, it is important to note that the sustainability of plastic bushings also depends on responsible manufacturing practices, proper disposal or recycling methods, and the selection of eco-friendly materials.

plastic bush

Can I get guidance on selecting plastic bushings based on factors like load capacity, speed, and temperature?

Yes, you can obtain guidance on selecting plastic bushings based on factors such as load capacity, speed, and temperature. Considering these factors is crucial for choosing the appropriate plastic bushings that can withstand the specific operating conditions of your application. Here are some sources that can provide guidance on selecting plastic bushings:

  • Manufacturer Documentation: Manufacturers of plastic bushings often provide technical documentation, catalogs, or product datasheets that include information on load capacity, speed limits, and temperature ratings. These resources typically outline the performance characteristics and specifications of different bushing materials and can guide you in selecting the most suitable bushings for your application. Visit the websites of reputable manufacturers or contact their customer support for access to these resources.
  • Engineering Handbooks and Reference Guides: Engineering handbooks and reference guides related to mechanical design, tribology, or materials science can offer valuable guidance on selecting plastic bushings. These resources often provide formulas, charts, and guidelines for calculating load capacity, considering speed limitations, and understanding temperature effects on various materials. Look for industry-standard handbooks or reference guides that cover topics relevant to your application and consult the sections on bushing selection.
  • Industry Associations and Standards Organizations: Industry associations and standards organizations in the machinery, automotive, or related sectors may have published guidelines or standards for selecting plastic bushings based on load capacity, speed, and temperature considerations. Visit their websites or contact them directly to inquire about any available resources or recommendations. These organizations often have technical committees and experts who can provide valuable guidance based on industry best practices.
  • Consulting with Application Engineers: If you require more personalized guidance, consider consulting with application engineers or technical experts who have expertise in the field of bushing selection. Application engineers can assess your specific application requirements, including load capacity, speed, and temperature, and make recommendations based on their experience and knowledge. Reach out to plastic bushing manufacturers, suppliers, or engineering consulting firms to inquire about their consulting services.
  • Online Forums and Communities: Participating in online forums and communities focused on machinery, engineering, or tribology can provide access to collective knowledge and experiences of professionals in the field. Engage in discussions, ask questions, and seek guidance on selecting plastic bushings based on load capacity, speed, and temperature requirements. Experienced members of these communities can often provide practical insights and recommendations.

When selecting plastic bushings, it’s important to consider not only the load capacity, speed, and temperature requirements but also factors such as the specific application environment, chemical compatibility, and maintenance considerations. It’s recommended to gather information from multiple sources and consult with experts to ensure the most suitable selection for your application.

By utilizing the available guidance and expertise, you can make informed decisions when selecting plastic bushings, considering factors such as load capacity, speed limits, and temperature requirements, thereby optimizing the performance and reliability of your machinery or equipment.

plastic bush

What are the advantages of using plastic bushings over traditional metal bushings in machinery?

Using plastic bushings in machinery offers several advantages compared to traditional metal bushings. Plastic bushings, also known as polymer bushings or plain bearings, are made from various synthetic materials such as nylon, PTFE (polytetrafluoroethylene), UHMW (ultra-high-molecular-weight polyethylene), or composite polymers. Here are some advantages of using plastic bushings:

  • <strong(Self-Lubrication): Plastic bushings often have inherent self-lubricating properties. They contain solid lubricants or have low-friction surfaces, reducing the need for additional lubrication. This feature reduces maintenance requirements, eliminates the risk of oil or grease contamination, and improves the overall reliability and cleanliness of the machinery.
  • Low Friction and Reduced Wear: Plastic bushings typically exhibit low coefficients of friction, resulting in smoother operation and reduced wear on mating surfaces. The lower friction reduces energy consumption and heat generation, contributing to improved efficiency and extended equipment lifespan.
  • Noise Reduction: Plastic bushings often dampen vibration and noise, resulting in quieter machinery operation. This is particularly beneficial in applications where noise reduction is essential, such as in consumer appliances or precision equipment.
  • Corrosion Resistance: Unlike metal bushings, plastic bushings are generally resistant to corrosion and chemicals. They can withstand exposure to harsh environments, including moisture, chemicals, and certain acids or alkalis, without deteriorating. This corrosion resistance contributes to longer service life and reduced maintenance requirements.
  • Lightweight: Plastic bushings are typically lighter than their metal counterparts. This can be advantageous in applications where weight reduction is important, such as in automotive or aerospace industries, as it can contribute to improved fuel efficiency and overall performance.
  • Cost-Effectiveness: Plastic bushings are often more cost-effective compared to metal bushings. They can be produced at a lower cost, and their self-lubricating properties eliminate the need for additional lubricants and associated maintenance costs. Additionally, plastic bushings can reduce the wear on mating parts, extending the lifespan of the overall system and reducing replacement costs.
  • Design Flexibility: Plastic bushings offer design flexibility due to their ability to be molded into complex shapes. This allows engineers to design customized bushings to fit specific applications, optimizing performance and reducing the need for additional components or modifications.

It’s important to note that the advantages of plastic bushings may vary depending on the specific application and operating conditions. In certain high-load or high-temperature scenarios, metal bushings may still be preferred. Therefore, it’s crucial to consider factors such as load capacity, temperature range, speed, and environmental conditions when selecting the appropriate bushing material for a given machinery application.

By leveraging the advantages of plastic bushings, machinery can benefit from improved performance, reduced maintenance, extended lifespan, and enhanced overall efficiency.

China Custom OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Iron Plastic Copper Bronze Brass Bushings bushing arm China Custom OEM Metric Sleeve Reducer Drill Flange Aluminum Bushing 40mm Metal Iron Plastic Copper Bronze Brass Bushings bushing arm
editor by CX 2024-04-10

China OEM Customized Arms Aluminum Stamping Machining Sheet Metal Milled Turned Accessories Rapid Prototype CNC Parts differential bushing

Merchandise Description

Merchandise Description

Personalized CNC Machining Areas of Most Components

Quatation

According to your drawing(dimensions,content,thickness,processing content material,and necessary technology,and so forth)

Tolerance │ Floor Roughness

±0.005-.01mm │ Ra0.2-Ra3.2(customise avaiable)

Materials Avaiable

Aluminum, Copper, Stainless metal, Iron, PE, PVC, Abdominal muscles, and so on.

Area Therapy

Sharpening, basic/difficult/colour oxidation, surface area chamfering, tempering, and many others.

Processing

CNC Turning, Milling, drilling, car lathe, tapping, bushing, surface remedy, and many others.

Tests Tools

CMM/Tool microscope/multi-joint arm/Automated height gauge/Manual peak gauge/Dial gauge/Roughness measurement

Drawing Formats

Pro/E, Auto CAD, CZPT Operates , UG, CAD / CAM / CAE, PDF

Our Positive aspects

1.) 24 several hours on-line services & Quickly Quote/Shipping and delivery.
2.) a hundred% QC high quality inspection just before delivery, and can supply top quality inspection type.
3.) eighteen+ years of encounter in the CNC machining spot and have a senior design team to offer perfect modification recommendations.

Thorough Photos

FAQ

1. Are you a manufacturing facility or buying and selling company?
A. We are the manufacturing facility, and can give a single-cease services for all of our customers, from substance to different surface area therapies, from technological product sales to delivery and following-product sales. So as to conserve the value for clientele, handle the quality and guide time, offer the greatest services.

Q2. What are the positive aspects of functioning with you?
A. Generation time and item good quality are secure, customers do not need to devote a good deal of time to discover other suppliers.
B. We have a robust support system and a skilled support group to supply you with 24-hour support. We offer not only high-good quality items but also our specialist services.

C. We will give a variety of preferential procedures from time to time for long-term cooperation with previous customers.
D. We have complete merchandise info that can be offered to clients to support consumers market OEM products.

Q3. Can I customise the item?
A. Completely. We can customize aluminum profile in accordance to your style and make your personal brand emblem. Also we can bundle the merchandise in accordance to your ask for. We can also acknowledge OEM orders.

This autumn. Can I have cost-free samples?
A. We can offer you samples for totally free, but the shipping and delivery expense shall be negotiated by both sides.

After-sales Service: 3 Years
Warranty: 3 Years
Condition: New
Certification: CE, RoHS, GS, ISO9001
Standard: DIN, ASTM, GOST, GB, JIS, ANSI, BS
Customized: Customized
Customization:
Available

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Customized Request