Bronze Bearing Extreme Temperature, Extreme Performance

Bearings and Bushings for the Future: Precision and Customization: Our company, in bearing engineering with decades of experience, designs and develops high-precision self-lubricating bronze bearings & plain bushes. We offer a wide array of sliding bearings tailored to meet specific needs. Renowned for our expertise in custom bronze bushing and slide plate solutions, we provide an expansive selection of bushing metal alloys. Contact us today to benefit from unparalleled services at competitive prices.

Bronze Bearing Extreme Temperature, Extreme Performance

High-Temperature Bushing Manufacturer: Mastering Extreme Conditions

Experience the Strength of Self-lubricating Bearings

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In industries facing extreme temperatures, the demand for durable solutions is growing. Particularly in automotive and industrial sectors, there is an increasing need for components that withstand high thermal limits. Our high-temperature bushings not only meet but exceed these stringent standards, performing exceptionally up to 800°C. They offer superior corrosion resistance, wear resistance, and low friction, recognized to lower operating costs and improved system efficiency. Additionally, these bushings are self-lubricating, removing the need for maintenance.

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Our bearing bronze consists of 81-85% Copper, 6-8% Lead, 6.3-7.5% Tin, 2-4% Zinc, and 1.5% Phosphorus, with controlled trace elements like Nickel, Antimony, Iron, Sulfur, Aluminum, and Silicon. We utilize different bronze alloys such as C93200, C95400, and C86300 based on specific requirements.

We provide technical solutions for any factory or plant, specializing in high-temperature bearings designed to endure extreme conditions. Our offerings are customized to meet various needs and ensure optimal installation and performance.

Selecting Bronze Bearing Materials

Bronze bushings are prized for their self-lubricating nature, eliminating the need for external lubrication and extending their lifespan. They are easy to machine for customization and offer excellent corrosion resistance, making them perfect for marine and submerged applications like pumps. Browse our extensive online selection of high-temperature bearing bushings in various materials.

Our graphite bronze bearing is particularly notable for its outstanding wear resistance, self-lubrication, and high-temperature durability. It is ideal for heavy-load, low-speed applications such as high-temperature tunnel kiln cars, providing a practical and economical alternative to needle roller bearings.

High-Temperature Bronze Bushing Bearings

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Our self-lubricating bronze bearings, made from a copper-tin alloy with optional lead, zinc, or aluminum, are designed for high-temperature applications. Used in diverse industries worldwide, they have even been deployed in space.

Precision Bronze Alloys for Dependable Bearing Performance
Superior Bronze Bearings – Designed for Tough Environments

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Durable Bronze Bearing Alloys – High Performance & Reliability

These high-temperature bronze bearings, available with an optional flange, facilitate smooth movement and reduce vibration. They also secure components and maintain spacing.

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Discover our comprehensive range of bronze bearings, designed to meet all your high-temperature needs.

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High Temperature Bushings Catalog, Explore Bronze Bearing Alloys – Ideal for Heavy Loads

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high temperature bushings material

High temperature bushings are made from a variety of materials that are capable of withstanding high temperatures and maintaining their strength and durability in harsh environments. Some of the most commonly used materials for high temperature bushings include:

  1. Ceramics: Ceramic materials, such as alumina and zirconia, are known for their high temperature resistance and low thermal conductivity. These materials are also resistant to thermal shock, making them a popular choice for high temperature bushings.
  2. Graphites: Graphite is a highly heat-resistant material that is often used in high temperature bushings. Graphite bushings are also resistant to corrosion and are ideal for use in applications where high temperatures are combined with corrosive conditions.
  3. Metals: High temperature bushings made from metals such as steel, nickel, and titanium are able to maintain their strength and durability at high temperatures. These bushings are often coated with a protective layer to help prevent corrosion and extend their lifespan.
  4. Composites: High temperature bushings can also be made from composite materials that combine the benefits of multiple materials. For example, a composite bushing might consist of a graphite layer on the inside for heat resistance, and a steel layer on the outside for added strength and durability.

Choosing the right material for high temperature bushings depends on the specific requirements of the application. Factors to consider include the maximum temperature, corrosive conditions, and load capacity. With the right material, high-temperature bushings can provide reliable performance and extend the lifespan of equipment in harsh environments.

Bronze Bearings: A Guide to Understanding Bearing Bronze Alloys

Bronze bearings have been used for centuries as a reliable and durable option for a variety of applications, including machinery, automotive, and marine industries. Bearing bronze is a type of bronze alloy that is specifically designed to withstand the stresses and pressures of bearing applications. In this guide, we will explore the different types of bearing bronze alloys and their properties, as well as their advantages and disadvantages.

Types of Bearing Bronze Alloys

There are several types of bearing bronze alloys available, each with its own unique set of properties and advantages. The most common types of bearing bronze alloys are:

  1. C93200 (SAE 660) Bearing Bronze: This is the most widely used bearing bronze alloy and is known for its excellent strength, wear resistance, and machinability.
  2. C95400 Aluminum Bronze: This alloy is known for its excellent corrosion resistance and high strength, making it ideal for marine applications.
  3. C86300 Manganese Bronze: This alloy is known for its high strength and wear resistance, making it ideal for heavy-duty applications.
  4. C93200 SAE 660 Bearing Bronze: This is the most widely used bearing bronze alloy and is known for its excellent strength, wear resistance, and machinability.

Properties of Bearing Bronze Alloys

The properties of bearing bronze alloys vary depending on the specific alloy used. However, in general, bearing bronze alloys have the following properties:

  1. Good wear resistance: Bearing bronze alloys are specifically designed to withstand wear and tear, making them an ideal choice for high-stress applications.
  2. Excellent machinability: Bearing bronze alloys are easy to machine, making them a popular choice for custom bearings and other machined parts.
  3. Good corrosion resistance: Depending on the specific alloy used, bearing bronze can have excellent corrosion resistance, making it ideal for marine applications.

Advantages of Bearing Bronze Alloys

Bearing bronze alloys offer several advantages over other materials, including:

  1. Durability: Bronze bearings have been used for centuries and are known for their durability and reliability.
  2. High strength: Bearing bronze alloys are strong and can withstand heavy loads, making them ideal for heavy-duty applications.
  3. Versatility: Bearing bronze alloys can be customized to meet specific application requirements, making them a popular choice for a variety of industries.

Bearing bronze alloys are a popular choice for a variety of applications due to their durability, strength, and versatility. By understanding the different types of bearing bronze alloys and their properties, you can choose the right material for your specific application. Whether you are in the automotive, marine, or machinery industry, bearing bronze alloys are an excellent choice for reliable and long-lasting performance.

Bronze Alloys: Properties, Applications, and Machining Tips

Bronze is a versatile metal alloy made primarily of copper, with the addition of other elements such as tin, aluminum, and nickel. It has been in use for thousands of years due to its excellent physical properties, including high strength, durability, and resistance to corrosion. Bronze alloys also possess unique aesthetic qualities, making them popular in decorative applications. In this article, we’ll explore the properties and applications of bronze alloys and provide some tips for machining this valuable material.

Properties of Bronze Alloys

Bronze alloys can exhibit a wide range of physical properties, depending on the specific combination of elements used in their production. Generally, bronze alloys are denser and harder than pure copper, with higher tensile and yield strengths. They are also more resistant to corrosion, making them ideal for use in harsh environments.

The addition of tin to copper produces bronze alloys with a golden color and a low coefficient of friction, making them ideal for use in bearings and bushings. Phosphor bronze, which contains small amounts of phosphorus, has excellent spring properties and is commonly used in electrical contacts and springs. Aluminum bronze, which contains aluminum and nickel, is known for its high strength and excellent resistance to corrosion and is often used in marine applications.

Applications of Bronze Alloys

Bronze alloys are widely used in various applications due to their unique combination of physical and aesthetic properties. Here are some common applications of bronze alloys:

  1. Bearings and bushings: Bronze alloys are ideal for use in bearings and bushings due to their low coefficient of friction and excellent wear resistance.
  2. Electrical contacts and springs: Phosphor bronze is commonly used in electrical contacts and springs due to its excellent spring properties and resistance to corrosion.
  3. Marine applications: Aluminum bronze is commonly used in marine applications due to its high strength and excellent resistance to corrosion in seawater.
  4. Decorative applications: Bronze alloys possess unique aesthetic qualities, making them popular in decorative applications such as sculptures, monuments, and architectural elements.

Machining Tips for Bronze Alloys

Machining bronze alloys can be challenging due to their unique physical properties. Here are some tips for machining bronze alloys:

  1. Use sharp tools: Bronze alloys are relatively soft, but they can be abrasive, so it’s important to use sharp cutting tools to prevent excessive tool wear and surface damage.
  2. Use low cutting speeds: Low cutting speeds can help prevent excessive heat buildup and material deformation.
  3. Use adequate coolant: Adequate coolant can help dissipate heat and prevent workpiece and tool damage.
  4. Avoid work hardening: Bronze alloys can work harden quickly, so it’s important to use the proper cutting techniques to avoid this.

Bronze alloys are versatile materials that offer unique physical and aesthetic properties, making them ideal for a wide range of applications. Whether you’re using bronze alloys in bearings, electrical contacts, marine applications, or decorative applications, it’s important to understand their properties and use the proper machining techniques to get the best results. With the tips provided in this article, you’ll be well on your way to successfully machining bronze alloys.

High-Temperature Bearing Bronze Alloy Option

When it comes to high-temperature bearings, there are several bronze alloy options to choose from. Each alloy offers its own set of advantages and disadvantages, and selecting the right one will depend on the specific requirements of your application. Some of the most commonly used high-temperature bronze alloys include:

  1. Phosphor Bronze: Phosphor bronze is a popular choice for high-temperature bearings due to its excellent mechanical properties and resistance to wear and corrosion. It is also a good choice for applications that require good electrical conductivity.
  2. Aluminum Bronze: Aluminum bronze is another popular option for high-temperature bearings due to its high strength, hardness, and resistance to wear and corrosion. It is also a good choice for applications that require good electrical conductivity.
  3. Beryllium Copper: Beryllium copper is a high-strength, high-temperature alloy that is ideal for applications that require high stiffness and good electrical conductivity.
  4. Tin Bronze: Tin bronze is a good choice for high-temperature bearings that are exposed to high loads and impacts. It is also a good choice for applications that require good wear resistance and good machinability.
  5. Lead Bronze: Lead bronze is a good choice for high-temperature bearings that are exposed to corrosive environments. It is also a good choice for applications that require good wear resistance and good machinability.

In conclusion, there are several bronze alloy options to choose from when it comes to high-temperature bearings. The best option will depend on the specific requirements of your application, including factors such as strength, wear resistance, corrosion resistance, electrical conductivity, and machinability. Be sure to carefully consider these factors when selecting the right high-temperature bronze alloy for your application.

Below is a table outlining various types of bronze, brass, and copper alloys, including bearing bronze alloys, manganese bronzes, phosphor bronzes, and tin bronzes:

Alloy Type Material Composition Key Properties Common Applications
Bearing Bronze Cu 80%, Sn 10%, Pb 10% Good load capacity, wear resistance, machinability Bearings, bushings, wear plates
Manganese Bronze Cu 58-63%, Zn 33-38%, Al 3-6%, Mn 2.5-5%, Fe 1-2.5% High strength, corrosion resistance, good wear resistance Gears, pump components, heavy-duty bearings
Phosphor Bronze Cu 90-95%, Sn 5-10%, P 0.03-0.35% Excellent wear resistance, fatigue resistance, low friction Springs, electrical contacts, slide bearings
Tin Bronze Cu 85-90%, Sn 10-15%, Pb 0.5-2%, Zn 2-5% Good wear resistance, corrosion resistance, high load capacity Gears, bearings, bushings, pump components
Brass Cu 65%, Zn 35% Good machinability, corrosion resistance, moderate strength Plumbing fittings, valves, decorative parts
Naval Brass Cu 60%, Zn 39%, Sn 1% Excellent corrosion resistance, good strength, wear resistance Marine hardware, propellers, valve stems
Aluminum Bronze Cu 85-90%, Al 10-15%, Fe 1-5%, Ni 1-5% High strength, wear resistance, excellent corrosion resistance Pump parts, gears, valves, heavy-duty bearings
Silicon Bronze Cu 95-97%, Si 2-4%, Zn 1-4% Corrosion resistance, good strength, low friction Fasteners, electrical components, marine hardware

Please note that this table provides a brief overview of some common bronze, brass, and copper alloys. There are many more alloys available, each with its specific properties and applications. Always consult the manufacturer’s recommendations or a material expert when selecting the appropriate alloy for your requirements.

High-temperature self-lubricating bushing supplier

There are many suppliers of high-temperature bushings, each offering a variety of products designed for specific applications and industries. Choosing the right supplier for your needs can be a challenge, so it is important to consider the following factors when making your selection:

  1. Quality: Look for a supplier with a reputation for producing high-quality, reliable products that are designed to withstand the harsh conditions of high-temperature applications.
  2. Selection: Consider a supplier that offers a wide range of high-temperature bushings, including those made from ceramic, metal, and composite materials. This will ensure that you have access to the right product for your specific needs.
  3. Technical support: Choose a supplier that provides technical support and can help you to select the right product for your application, and assist with installation and maintenance.
  4. Availability: Look for a supplier with a strong inventory of high-temperature bushings, and the ability to quickly and easily obtain products that are not in stock.
  5. Price: Consider the cost of the high-temperature bushings, but also take into account the quality, reliability, and support offered by the supplier.

Some of the well-known high-temperature bushing suppliers include Saint-Gobain, GGB, viiplus.com, and Bronzelube.com, these companies have a proven track record of providing high-quality, reliable products and technical support to customers in a variety of industries.

In conclusion, choosing the right high-temperature bushing supplier is an important decision that can impact the performance, reliability, and cost of your equipment. Consider the factors outlined above when making your selection, and take the time to research potential suppliers and their products before making your final decision.

High-temperature self-lubricating bearing bushing

High-temperature self-lubricating bearings are designed to provide reliable performance in high-temperature applications where traditional lubricants may break down or evaporate. These bearings use special materials and designs to reduce friction and wear, even at high temperatures. The result is a bearing that requires minimal maintenance and provides extended service life in harsh environments.

Self-lubricating bearings typically use a combination of materials and technologies to provide a low-friction surface and extend the lifespan of the bearing. One common approach is to use a porous metal material, such as bronze, that is impregnated with a lubricant. The lubricant is then able to seep out of the pores in the metal and onto the surface of the bearing, reducing friction and wear.

Another approach to self-lubricating bearings is to use a composite material that combines a low-friction material, such as PTFE, with a metal backing. The metal provides the structural strength and durability, while the PTFE layer provides a low-friction surface that reduces wear and extends the lifespan of the bearing.

In addition to the choice of materials, high-temperature self-lubricating bearings can also be designed with specific features to improve their performance in harsh environments. For example, some self-lubricating bearings are designed with a labyrinth seal to prevent contamination and extend the life of the lubricant.

In conclusion, high-temperature self-lubricating bearings are a cost-effective and reliable solution for applications where traditional lubricants may break down or evaporate. With the right choice of materials and design features, these bearings can provide extended service life and reduce the need for costly maintenance and repairs in harsh environments.

High-temperature oilless bushing bearings

High-temperature bushings are specialized components designed to operate in extreme heat conditions, making them an essential component in various industrial applications. These bushings are made from materials that are able to withstand high temperatures and maintain their strength and durability even in harsh environments.

The use of high-temperature bushings can provide several benefits over traditional bushings, including increased reliability and reduced downtime. For example, in applications where high temperatures cause conventional bushings to fail, high-temperature bushings are able to maintain their integrity and continue to function, reducing the need for costly maintenance and repairs. Additionally, high temperature bushings are able to maintain their dimensional stability, which helps to prevent equipment from becoming misaligned, recognized to further failures.

High-temperature bushings are often made from materials such as ceramics, graphites, and metals that are able to withstand high temperatures and maintain their strength and durability. These materials are also resistant to thermal shock, which is the sudden change in temperature that can cause traditional bushings to crack or break.

manufacturer of metric, sleeve type & oilless or self-lubricating sleeves & bushings used as bearings. Products include groove & thin wall bushings & flanged sleeves. Specifications of bushings & sleeves include 0.073 in. to 1.000 in. nominal size, 0.075 in. to 1.005 in. ID & 0.099 in. to 1.075 in. OD. Sleeves are available in 0.62 in. to 2.375 in. lengths. Applications include insulating industrial products, machine parts, dampening vibration, fastening & sealing. Custom sizes are also available.

oilless bearings

Suitable for extreme Temperature demanding conditions.

  • Ordinary high-temperature bronze bearing
  • Special high-temperature bronze bearing

High-temperature bearings are widely used in metallurgy, furnace, glass, blast furnace, painting equipment, and other high-temperature operating machinery.

Bronze bearings are sliding bearings with high density, high bearing pressure, good wear resistance, long service life, and other advantages, widely used in lifting machinery, construction machinery, automobile tractor chassis, machine tool industry and mining machinery.

Bronze Bearing Material

As a bearing material, bronze has the advantages of high density, large bearing capacity, good wear resistance, long service life, and so on. It is also widely used.

The copper alloy has high strength, good friction reduction, and wear resistance. Bronze has better properties than brass and is the most commonly used material. There are several kinds of bronze, such as tin bronze, lead bronze and aluminum bronze, among which tin bronze has the best anti-friction property and is widely used. However, tin bronze has higher hardness than bearing alloy, poor running-in, and embeddability, and is suitable for heavy load and medium speed occasions.Lead bronze has strong adhesion resistance, suitable for high speed and heavy load bearing.Aluminum bronze has high strength and hardness and poor adhesion resistance. It is suitable for low speed and heavy load bearing.

Special bronze alloys bearing for High Temperature!

Self-lubricating bearings are made from bronze, diluted bronze, and iron graphite. Various capabilities include drilling, tapping, machining, sizing, grinding, plating, coating, and assembly. Automotive, electric motor, furniture, medical and other industries fast delivery.

High temperature bearings made from bronze alloys are a popular choice for applications that require high temperature resistance and low maintenance requirements. Bronze alloys are a type of metal that contain tin, aluminum, and other elements that enhance their strength and resistance to wear. The casting process enables manufacturers to produce bearings with precise dimensions and surface finishes, ensuring optimal performance in high temperature applications.

Bronze alloys used for high temperature bearings typically contain high amounts of tin and aluminum, which provide excellent resistance to high temperatures and corrosive environments. The addition of other elements such as phosphorus, silicon, and manganese can further improve the properties of the bronze alloy, making it ideal for use in high temperature applications.

High temperature bronze bearings are able to maintain their dimensional stability at high temperatures, which helps to prevent equipment from becoming misaligned and reduce the risk of equipment failure. The low maintenance requirements of high temperature bronze bearings, combined with their resistance to corrosion and ability to absorb shock and vibrations, make them an ideal choice for applications in industries such as power generation, petrochemical, and aerospace.

In conclusion, high temperature bronze bearings are a reliable and cost-effective solution for applications that require high temperature resistance and low maintenance requirements. The use of high temperature bronze bearings can help to reduce downtime, lower maintenance costs, and extend the lifespan of equipment in harsh environments.

flange bushing

Special bronze bushing bearing for High Temperature!

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And alloy Cupb5sn5zn5 material tin bronze bushing with graphite for temperatures up to 400°c, without graphite, or lubricate, can provide up to 600°c High-temperature resistance. We have been committed How to helping optimize and improve bearings for various high-temperature applications such as industrial valves. We are more than a metal lubricating bearing supplier. Is your tribology partner? We will work with you from the earliest days of the design to help you find potential risks and help you go further in the future.

High-Temperature Bearing Solutions

We offer a range of bronzes especially suitable for applications such as mold,stamp tools, marine tube-bearing bushings accessories or valve and pipeline components. For pieces with bronze bushings & sliding bearings diameter of ≤ 400 mm. For larger size values to be agreed with the order. For Small sizes≥8 mm.

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Simply send an inquiry to us tiffany@viiplus.com and get a free quote for your lubricating bearings to receive important information from bronze lube.

High-Temperature Bushings

High temperature performance bushing bearings are critical components in many industrial applications where high temperatures and harsh conditions are present. These bushings are designed to provide reliable performance and extended service life in applications where traditional bushings may fail. To achieve this, high-temperature performance bushing bearings are made from materials that are specifically selected for their ability to withstand high temperatures and maintain their strength and durability.

There are several different types of high-temperature performance bushing bearings available, including ceramic, metal, and composite materials. Ceramic materials, such as alumina and zirconia, are highly resistant to high temperatures and offer low thermal conductivity, making them a popular choice for high-temperature applications. Metal bushings, such as those made from steel, nickel, or titanium, are known for their strength and durability, and are often coated with a protective layer to improve resistance to corrosion and high temperatures.

Composite high-temperature performance bushing bearings are made from a combination of materials, offering the benefits of multiple materials in a single component. For example, a composite bushing might consist of a graphite layer on the inside for heat resistance, and a steel layer on the outside for added strength and durability.

In addition to the choice of material, high-temperature performance bushing bearings can also be designed with specific features to improve their performance in harsh environments. For example, many high-temperature performance bushing bearings are designed with a self-lubricating or oil-impregnated layer to reduce friction and wear, even at high temperatures.

In conclusion, high-temperature performance bushing bearings are an essential component in many industrial applications where high temperatures and harsh conditions are present. With the right choice of material and design features, these bushings can provide reliable performance and extended service life, reducing the need for costly maintenance and repairs.

Self-lubricating bearings are made of polymer alloys, phenolic and thermoplastic materials. Sliding bearings are wear or impact resistant, grease-free, non-contaminating or oil-free. Suitable for mill, winch and rail applications. Serves the recreational, marine, mining, shipbuilding, pulp, paper, power generation, water or wastewater treatment, and oil and gas industries.

cast bronze bushing

Built for applications that need to operate under extreme temperatures and loads, while providing superior corrosion resistance.

Your Complete Tribological Service Provider

Bushings are intended for use in harsh industrial applications where temperatures reach 400°C or higher. Graphite/metal alloy bushings are designed to operate without lubrication, including heat-treating furnaces, melting furnaces, conveyors, and other environments where oil and grease cannot be used.

We offer a comprehensive selection of products to meet the world’s most demanding surface engineering needs. We produce metallic polymers, engineering plastics, fiber-reinforced composites, metals, and bimetals.
We produce metallic polymers, engineering plastics, fiber-reinforced composites, metallic and bimetallic bearings and polymer coatings, as well as a range of support assemblies, bushing blocks, and thrust plates.

Designed for high-temperature applications
Built for applications that require operation at extreme temperatures and loads
applications, while providing superior corrosion resistance.
Provides excellent corrosion resistance.
Low friction, high wear resistance
Maintenance free
Ideal for applications requiring long service
life without periodic maintenance or operation with little or no lubrication
Under conditions of little or no lubrication.
Environmental protection
Oil-free, lead-free solutions meet
with increasingly stringent environmental
environmental regulations, including the RoHS directive for electrical and electronic equipment.
RoHS Directive for electrical and electronic equipment.
Advantages
Low coefficient of friction eliminates the
need for lubrication while reducing wear and extending service life.
Extended service life.

Industries served include:  — Automotive — Industrial — Agricultural — Construction — Oil and Gas — Energy — Fluid Power — Primary Metals — Recreation — Railway — Solar — Packaging

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Enhance Your Machinery’s Performance with Our High-Quality Bronze Alloy Bearings! Engineered for Durability and Efficiency, our bearings are tailored for demanding industrial use. Enjoy decreased friction and prolonged lifespan in your equipment. Perfect for construction, mining, and beyond. Tap to discover our selection and upgrade your machinery now!

Bronze Bushings: High Temperature

Low friction and highly heat-resistant bearing bushings.

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Bushing design, Comprehensive design manuals covering a range of self-lubricating materials used in all of viiplus’s manufacturing processes.

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Manufacturing On Demand, Technical Guides For Machining Design. Discover the latest in metal alloys, materials, and design tips for manufacturing custom machined and self-lubricating bearing parts.

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To receive your instant quote, simply upload your drawing file and choose your production process & bushing material.

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After you place your order, we will start the production process. You will receive updates when your order has completed production and is ready to be dispatched.

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We provide precision-inspected high-quality parts, packing lists and documents, and delivery tracking.

With innovative products, we are a dependable partner in enhancing the efficiency, intelligence, and sustainability of self-lubricating bearings. We produce high-precision components, bushings for powertrain and chassis applications, and various bronze and plain bearing solutions for numerous industrial uses.

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