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What other components are part of the undercarriage system of the KOMATSU PC200-7 excavator?

The undercarriage system of the KOMATSU PC200-7 excavator includes several components that work together to support and move the machine over various types of terrain.

Here are some of the key components:

Track chains: The track chains are a set of interlocking links that form a continuous loop around the undercarriage. They provide traction and support the weight of the machine.

Track shoes: The track shoes are the part of the undercarriage that comes into contact with the ground. They are typically made of high-strength steel and are designed to withstand the wear and tear of heavy use.

Rollers: There are several types of rollers in the undercarriage system, including carrier rollers, track rollers, and idlers. These rollers help to support the weight of the machine and keep the track chains in place.

Sprockets: The sprockets are the toothed wheels that engage with the track chains to propel the machine forward. They are typically made of hardened steel and are designed to withstand the wear and tear of heavy use.

Bushings and pins: The bushings and pins connect the links in the track chains and allow them to pivot smoothly. They are typically made of high-strength steel and are designed to withstand the wear and tear of heavy use.

Track adjusters: The track adjusters are used to adjust the tension in the track chains. This helps to ensure that the machine moves smoothly and efficiently over various types of terrain.

Overall, the undercarriage system of the KOMATSU PC200-7 excavator is a complex system that requires regular maintenance and inspection to ensure that it is operating at peak efficiency. By keeping the various components in good working order, operators can ensure that the machine is reliable, efficient, and safe to use.

How often should the undercarriage system be inspected and maintained?

The frequency of undercarriage system inspections and maintenance for the KOMATSU PC200-7 excavator can vary depending on several factors, including the operating conditions, KOMATSU PC200-7 Excavator Undercarriage Part Carrier Roller the frequency of use, and the type of work being performed. However, there are some general guidelines that can be followed to help ensure that the undercarriage system is maintained properly:

Daily inspections: Operators should perform daily inspections of the undercarriage system to check for any visible damage or wear, such as loose or missing bolts, damaged rollers, or worn track shoes. Any issues should be addressed promptly to prevent further damage.

Regular maintenance: Regular maintenance should be performed on the undercarriage system according to the manufacturer’s recommended schedule. This may include cleaning and lubricating the system, adjusting the track tension, and replacing worn or damaged components.

Operating conditions: The frequency of inspections and maintenance may need to be increased if the machine is operating in harsh conditions, such as dusty or muddy environments, or if it is subjected to heavy loads or frequent use.

Expert evaluation: It may be helpful to have an expert evaluate the undercarriage system periodically to identify any potential issues and provide guidance on maintenance and repair.

In general, it is important to maintain the undercarriage system of the KOMATSU PC200-7 excavator regularly to ensure its safe and efficient operation. By following the manufacturer’s recommended maintenance schedule and performing regular inspections, operators can help to prevent damage and extend the life of the machine.

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Whether Air Relief Valve Is Air Release Valve?

Air relief valves and air release valves are two different types of valves that serve different purposes.

An air relief valve is a valve that is used to release air from a pipeline or system to prevent the buildup of air pockets or pockets of gas. These air pockets can cause problems such as reduced flow, increased pressure, and damage to the system. Air relief valves are typically installed at high points in the pipeline or at other locations where air pockets are likely to occur.

An air release valve, on the other hand, is a valve that is used to release air from a pipeline or system when it is initially filled with water. These valves are typically installed at high points in the pipeline or at other locations where air pockets are likely to occur during the filling process. Air release valves are designed to allow air to escape from the pipeline as it is filled with water, preventing the formation of air pockets that can cause problems such as reduced flow and increased pressure.

While both air relief valves and air release valves are used to remove air from pipelines or systems, they serve different purposes and are designed differently to meet the specific needs of each application. It is important to select the appropriate valve for each specific application to ensure optimal performance and prevent problems such as reduced flow, increased pressure, and damage to the system.

How do air release valves differ from vacuum relief valves?

Air release valves and vacuum relief valves are two different types of valves that serve different purposes.

An air release valve is a valve that is used to release air from a pipeline or system when it is initially filled with water or when air pockets are formed during operation. These valves are typically installed at high points in the pipeline or at other locations where air pockets are likely to occur. Whether Air Relief Valve Is Air Release Valve? Air release valves are designed to allow air to escape from the pipeline as it is filled with water or as air pockets are formed during operation, preventing the formation of air pockets that can cause problems such as reduced flow and increased pressure.

A vacuum relief valve, on the other hand, is a valve that is used to prevent the buildup of negative pressure or vacuum inside a pipeline or system. These valves are typically installed at high points in the pipeline or at other locations where negative pressure or vacuum is likely to occur. Vacuum relief valves are designed to allow air to enter the pipeline or system when negative pressure or vacuum is detected, preventing damage to the pipeline or system.

While both air release valves and vacuum relief valves are used to prevent problems in pipelines or systems, they serve different purposes and are designed differently to meet the specific needs of each application. It is important to select the appropriate valve for each specific application to ensure optimal performance and prevent problems such as reduced flow, increased pressure, and damage to the system.

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Understanding the Different End-Uses of Steel

Steel is a versatile material that is used in a wide range of applications across various industries.

Here are some of the different end-uses of steel:

Construction: Steel is commonly used in construction for buildings, bridges, and other infrastructure. It is used in the form of beams, columns, and other structural components due to its strength, durability, and ability to withstand high loads.

Automotive: Steel is widely used in the automotive industry for the production of vehicle bodies, engine components, and other parts. It is used due to its strength, durability, and ability to be formed into complex shapes.

Energy: Steel is used in the energy industry for the production of oil and gas pipelines, wind turbines, and other equipment. It is used due to its strength, durability, and ability to withstand harsh environments.

Manufacturing: Steel is used in the manufacturing industry for the production of machinery, equipment, and tools. It is used due to its strength, durability, and ability to be formed into complex shapes.

Packaging: Steel is used in the packaging industry for the production of cans, containers, and other packaging materials. It is used due to its ability to protect the contents from external factors such as moisture, air, and light.

Aerospace: Steel is used in the aerospace industry for the production of aircraft components, such as landing gear and engine frames. It is used due to its strength, durability, and ability to withstand high temperatures.

Medical: Steel is used in the medical industry for the production of surgical instruments, implants, and other devices. It is used due to its biocompatibility and ability to withstand sterilization processes.

Household appliances: Steel is used in the production of household appliances such as refrigerators, washing machines, and dishwashers. It is used due to its strength, durability, and ability to be formed into complex shapes.

These are just a few examples of the different end-uses of steel. The versatility of steel and its ability to be customized for specific applications make it a valuable material across a wide range of industries.

How does the use of steel in the medical industry differ from its use in other industries?

The use of steel in the medical industry differs from its use in other industries in several ways:

Biocompatibility: Steel used in the medical industry must be biocompatible, which means that it does not cause an adverse reaction or harm to living tissue. This is important for medical implants and devices that come into contact with the human body.

Sterilization: Steel used in the medical industry must be able to withstand sterilization processes such as autoclaving, High quality concrete coil nails which uses high temperatures and pressure to kill bacteria and other microorganisms. This is important for medical instruments and implants that need to be sterile to prevent infection.

Surface finish: Steel used in the medical industry often has a smooth surface finish to prevent the buildup of bacteria and other microorganisms. This is important for medical instruments and implants that need to be sterile.

Corrosion resistance: Steel used in the medical industry must be resistant to corrosion, as it may be exposed to bodily fluids and other corrosive substances. This is important for medical implants and devices that need to last for a long time inside the human body.

Design and customization: Steel used in the medical industry must be designed and customized for specific medical applications. This may involve the use of specialized alloys, surface treatments, and other modifications to meet the specific needs of medical devices and implants.

Overall, the use of steel in the medical industry requires a higher level of attention to biocompatibility, sterilization, surface finish, corrosion resistance, and customization compared to its use in other industries. These factors are critical for ensuring the safety and effectiveness of medical devices and implants.

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What are some common care routines for Alloy Enamel Key Tag Keyring Keychain?

Here are some common care routines for Alloy Enamel Key Tag Keyring Keychain tags:

Wipe with a soft, dry cloth

This is the simplest and most effective way to clean enamel key tags. Wipe the surface with a soft microfiber or cotton cloth to remove dust, dirt and fingerprints.

Avoid soaking or submerging

Enamel coatings are not waterproof, so avoid soaking or submerging the key tag in water for long periods. Only wipe with a damp cloth if needed.

Polish with mild soap

For more thorough cleaning, you can gently wipe the surface with a soft cloth dampened with mild soap and water. Do not rub vigorously.

Rinse and dry immediately

After cleaning with soap and water, rinse the key tag thoroughly with clean water and dry immediately with a soft, dry cloth. Residual dampness can damage the enamel finish.

Avoid chemical cleaners

Harsh abrasives and chemical cleaners can damage the enamel coating. Avoid using acetone, ammonia or abrasive cleaners.

Store in a dry place

Store your enamel key tag in a dry place away from excess moisture. Humidity and prolonged exposure to moisture can deteriorate the enamel coating over time.

Inspect periodically

Check your key tag periodically for signs of wear like discoloration, peeling or chipping of the enamel coating. Minor damage can be touched up, but severe damage will require replacement.

With proper care and storage, enamel alloy key tags should retain their finish and durability for years. Following these simple cleaning and care tips will help preserve the appearance and function of your key ring accessories.

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The Importance of Fire Protection Fittings


It’s important to have fire protection fittings in your home or office in case of a fire. These fittings can help to extinguish the fire and prevent it from spreading. Make sure you have the right fittings for your needs, and install them properly to ensure their effectiveness.

  1. What are fire protection fittings?
    Fire protection fittings are devices that are installed in order to protect a building or structure from fire. Some of the most common fire protection fittings include fire extinguishers, fire hoses, and fire alarms. It is important to install these devices in order to help reduce the risk of a fire spreading and causing extensive damage.
  2. Why are fire protection fittings important?
    Fire protection fittings are important because they help to prevent fires from spreading. They can include things like fire sprinklers, fire alarms, and fire extinguishers. These fittings can help to contain a fire and stop it from spreading to other parts of the building. This can help to prevent damage and save lives.
  3. What are the different types of fire protection fittings?
    There are many different types of fire protection fittings. Some of the most common are sprinkler systems, fire hoses, and fire extinguishers. Each type of fitting has its own unique purpose, and it is important to know which type of fitting is best for your specific situation.
    Sprinkler systems are one of the most common types of fire protection fittings. They work by spraying water onto the fire in order to extinguish it. Fire hoses are also common, and they work by directing a stream of water onto the fire. Fire extinguishers are another common type of fire protection fitting. They work by releasing a pressurized stream of foam, carbon dioxide, or dry chemicals onto the fire.
    It is important to choose the right type of fire protection fitting for your specific needs. If you are unsure which type of fitting is best for you, consult a professional fire protection specialist.
  4. How can fire protection fittings help to prevent a fire from spreading?
    Fire protection fittings can help to prevent a fire from spreading by containing the fire and stopping it from travelling to other parts of the building. There are a range of different fire protection fittings available, such as fire doors, fire protection fittings fire curtains and fire dampers, which can all help to slow down the spread of fire and give people more time to get to safety. It is important to make sure that all of the fire protection fittings in your building are working properly and are kept in good condition, so that you can be confident that they will do their job in the event of a fire.
  5. What are some of the common fire protection fittings that are used in buildings?
    There are a variety of fire protection fittings that are commonly used in buildings. Some of these fittings include fire extinguishers, fire alarms, and fire sprinklers. Each of these fittings play an important role in helping to protect a building from a fire.
  6. How can fire protection fittings be installed?
    Fire protection fittings can be installed in a variety of ways, but the most common installation is a dry-pipe system. In a dry-pipe system, the fire protection fittings are installed on the outside of the building, and the pipes are filled with pressurized air. When a fire is detected, the air is released and the water is released through the fire protection fittings.
  7. What are the benefits of using fire protection fittings?
    There are many benefits to using fire protection fittings. Some of the most important benefits are that they help to prevent fires from spreading, they keep people safe, and they help to keep property damage to a minimum.
    Fire protection fittings are an important part of any fire protection system. They help to contain fires and keep them from spreading, which can help to minimize damage to property. They also help to keep people safe by providing a barrier between them and the fire.
    Fire protection fittings are also an important part of the design of a fire protection system. They help to ensure that the system is effective and that it meets all of the necessary requirements.
    Fire protection fittings are an important part of keeping your home or office safe in case of a fire. Make sure you have the right fittings for your needs, and install them properly to ensure their effectiveness.
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A Comprehensive Guide to 10 Inch Butterfly Valves


A comprehensive guide to 10 inch butterfly valves is an essential tool for understanding these valves and their use. Butterfly valves are becoming more and more popular in many industries, and it is important to understand the different types and sizes available.

What is a 10 inch butterfly valve?


A 10-inch butterfly valve is a type of valve that can be opened and closed to control the flow of fluids through a pipe. It is a disc-shaped valve that is mounted on a hinge so that it can be rotated to open and close the valve. The valve is opened by rotating the disc to the fully open position, and it is closed by rotating the disc to the fully closed position. The butterfly valve is a type of valve that is used to control the flow of fluids through a pipe. It is a disc-shaped valve that is mounted on a hinge so that it can be rotated to open and close the valve. The valve is opened by rotating the disc to the fully open position, and it is closed by rotating the disc to the fully closed position.

How does a 10 inch butterfly valve work?


Butterfly valves are a type of valve that use a disc to control the flow of fluid through a pipe. The disc is attached to a rod, which is connected to a lever. When the lever is turned, the disc moves from one side of the valve to the other, opening or closing the valve.


Butterfly valves are available in a variety of sizes, from small valves that are just a few inches in diameter, to large valves that are 10 inches or more in diameter. The size of the valve is determined by the size of the pipe it is used on.


Butterfly valves are often used in industrial applications, where they are used to control the flow of fluid through a pipe. They are also used in the automotive industry, where they are used to control the flow of fluid through the engine.


Butterfly valves are a type of valve that use a disc to control the flow of fluid through a pipe. The disc is attached to a rod, 10 inch butterfly valve which is connected to a lever. When the lever is turned, the disc moves from one side of the valve to the other, opening or closing the valve.


Butterfly valves are available in a variety of sizes, from small valves that are just a few inches in diameter, to large valves that are 10 inches or more in diameter. The size of the valve is determined by the size of the pipe it is used on.


Butterfly valves are often used in industrial applications, where they are used to control the flow of fluid through a pipe. They are also used in the automotive industry, where they are used to control the flow of fluid through the engine.


What are the benefits of using a 10 inch butterfly valve?

There are many benefits of using a 10 inch butterfly valve. Some of these benefits include:

  • They are easy to use and can be opened and closed with a simple turn of the handle.
  • They are very durable and can withstand a lot of wear and tear.
  • They are able to handle high pressure and can be used in a variety of applications.
  • They are very reliable and rarely fail.
  • They are cost effective and affordable.
  • They are easy to maintain and don’t require a lot of upkeep.
  • They are available in a variety of sizes and can be customized to fit your needs.
  • They are made from high quality materials and are built to last.
  • They are environmentally friendly and help reduce greenhouse gas emissions.
  • They are safe and secure and can be used in a variety of settings.
    Overall, there are many benefits to using a 10 inch butterfly valve. If you are looking for a reliable, durable, and affordable valve, then a butterfly valve is the perfect option for you.
    -How to select the right 10 inch butterfly valve for your needs?

    When it comes to selecting the right 10 inch butterfly valve for your needs, there are a few things you need to consider. The first thing you need to consider is the type of material the valve is made out of. You will also need to consider the pressure and temperature rating of the valve. Additionally, you will need to determine the type of fluid that will be flowing through the valve.
    What are the common problems with 10 inch butterfly valves?

    One common problem with 10 inch butterfly valves is that they can be difficult to open and close. This can be due to the weight of the valve, the size of the valve, or the tightness of the seal. Another common problem is that the valve may not seal properly, which can lead to leakage.

  • -How to properly maintain a 10 inch butterfly valve?

  • Maintaining a butterfly valve is a relatively easy process, but it is important to follow the correct steps in order to ensure that the valve remains in good condition. The first step is to make sure that the valve is properly lubricated. Many butterfly valves come with a lubricant that should be applied every time the valve is opened. If the valve does not come with a lubricant, a silicone-based lubricant can be used.
    The next step is to check the seals on the valve. If the seals are worn or damaged, they should be replaced. It is also important to check the gaskets on the butterfly valve, and to make sure that they are in good condition.
    Finally, the valve should be cleaned on a regular basis. This can be done by wiping the valve with a damp cloth.
    -The best 10 inch butterfly valves on the market today.

    When it comes to purchasing a butterfly valve, there are a few things you need to take into consideration. The first is the size of the valve. You need to make sure that the valve is the right size for the pipe it will be attached to. The next thing to consider is the type of valve. There are a few different types of butterfly valves on the market, so you need to make sure you choose the right one for your needs.
    The last thing to consider is the price. Butterfly valves can vary in price, so you need to find one that fits your budget. That being said, there are some great butterfly valves on the market today that are well worth the price. Here are the 10 best butterfly valves on the market today.
    Thank you for reading our comprehensive guide to 10 inch butterfly valves. We hope you now have a better understanding of these valves and their many uses.

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How can I test the tank gate valve?

Here are some steps to test the gate valve on a foam bladder tank:

Ensure the tank is empty and the bladder is deflated before testing the valve.

Locate the china gate valve on the tank. It will be a valve body with a lever or handle to open and close the valve.

Ensure the valve is in the closed position (handle down) to start the test.

Pressurize the tank bladder using an air compressor to a pressure of around 2-5 psi.

Check for any air leaks around the valve seal or stem. If leaks are found, the valve may need repair or replacement.

Carefully open the gate valve by raising the handle or lever.

Ensure air flows through the valve smoothly without obstruction. Some resistance is normal, but the valve should not get stuck open or closed.

Check that the air pressure in the tank reduces at a controlled rate when the valve is open.

The air should not rush out rapidly or escape silently. Some air flow audible.

Close the gate valve to shut off air flow.

Ensure it seals properly and air pressure in the tank holds. No leaks should be detected.

Repeat the opening and closing of the valve a few times to further test its functionality and ensure there are no binding, sticking or sealing issues.

Deflate and depressurize the tank bladder completely when done testing the gate valve. Leave the valve in the closed position for future use.

Test the valve again, if any problems were found during the initial test. Sometimes valve seats can seating may require some cycling to become fully seated for a proper seal.

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Different Types of panty diaper for Women

Panty diaper for women are a type of absorbent underwear designed to manage urinary incontinence.

There are several types of panty diapers available on the market, including:

Disposable panty diapers: Disposable panty diapers are designed to be worn once and then thrown away. They are convenient for travel and can help reduce the risk of infections.

Reusable panty diapers: Reusable panty diapers are made from washable fabric and can be used multiple times. They are environmentally friendly and can be more cost-effective in the long run.

Pull-on panty diapers: Pull-on panty diapers are designed to be pulled on and off like regular underwear. They are discreet and easy to use, making them a popular choice for women with mild to moderate incontinence.

Adjustable panty diapers: Adjustable panty diapers have adjustable tabs that allow for a custom fit. They are ideal for women with varying body shapes or those who need extra support.

Seamless panty diapers: Seamless panty diapers have a seamless design that helps prevent chafing and irritation. They are ideal for women with sensitive skin.

High-waisted panty diapers: High-waisted panty diapers provide extra coverage and support around the waist. They are ideal for women who need extra support or who want a more secure fit.

When selecting a panty diaper, it’s important to consider the level of absorbency needed, the size and fit, and any specific features that may be important for your needs, such as odor control or skin protection. China panty diaper factory It’s recommended to consult with a healthcare professional or incontinence specialist to determine the best type of panty diaper for your needs.

What You Ought To Understand About panty diaper?

Panty diaper for women are a type of absorbent underwear designed to manage urinary incontinence.

Here are some important things you ought to understand about panty diapers:

Absorbency: Panty diapers come in varying levels of absorbency, from light to heavy. It’s important to choose a panty diaper with the appropriate level of absorbency for your needs.

Size and fit: Panty diapers come in different sizes and fits, so it’s important to choose one that fits you properly. A proper fit ensures that the panty diaper is effective and comfortable to wear.

Material: Panty diapers are made from a variety of materials, including cotton, polyester, and other synthetic materials. It’s important to choose a material that is comfortable and gentle on your skin.

Odor control: Some panty diapers come with odor control features, such as activated charcoal or other absorbent materials that help to neutralize odors. This can help you feel more confident and comfortable in social situations.

Skin protection: Panty diapers should be gentle on the skin and provide protection against irritation and chafing. Some panty diapers are made from soft, hypoallergenic materials that are gentle on sensitive skin.

Discreetness: Many panty diapers are designed to be discreet and look like regular underwear, so you can wear them with confidence.

Environmental impact: Disposable panty diapers have a significant environmental impact, as they contribute to landfill waste. Reusable panty diapers are a more environmentally friendly option.

When selecting a panty diaper, it’s important to consider your specific needs and preferences. It’s recommended to consult with a healthcare professional or incontinence specialist to determine the best type of panty diaper for your needs. With the right panty diaper, you can manage urinary incontinence with confidence and comfort.

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What are the advantages of a wafer butterfly valve over a lug butterfly valve?

PN16 butterfly valve is a type of butterfly valve that is designed to handle a pressure rating of 16 bar. The “PN” in PN16 stands for “Pressure Nominal”, which is a standard pressure rating system used in Europe and other parts of the world.

A PN16 butterfly valve is typically used in applications where high-pressure fluids are being transported, such as in industrial processing, chemical processing, and oil and gas pipelines. These valves are designed to withstand the high pressure and flow rates of these applications and provide reliable performance over time.

PN16 butterfly valves are available in a variety of materials, including ductile iron, carbon steel, stainless steel, and other alloys. They are also available in different types, including wafer, lug, and flanged butterfly valves, each with their own unique features and advantages.

When selecting a PN16 butterfly valve, it’s important to consider factors such as the size and pressure rating of the valve, the type of fluid being transported, and any specific requirements of the application. It’s recommended to consult with a qualified engineer or valve specialist to determine the best type of valve for your needs.

Both wafer and lug butterfly valves are commonly used in industrial applications, but they have some important differences in design and function.

Here are some advantages of a wafer butterfly valve over a lug butterfly valve:

Cost: Wafer butterfly valves are generally less expensive than lug butterfly valves because they require fewer materials to manufacture and install. They also require less space and are easier to install, which can save time and labor costs.

Space-saving design: Wafer butterfly valves have a compact design that allows them to be installed between two flanges without the need for additional hardware. They take up less space and can be used in applications where space is limited.

Lightweight: Wafer butterfly valves are typically lighter than lug butterfly valves, which makes them easier to handle and install.

Lower torque requirements: Wafer butterfly valves typically require less torque to operate than lug butterfly valves, which reduces the strain on the valve and the piping system.

Easier to install: Wafer butterfly valves are easier to install than lug butterfly valves because they require fewer bolts and nuts to secure them to the flanges. This can save time and simplify the installation process.

However, it’s important to note that both wafer and lug butterfly valves have their own unique advantages and disadvantages, and the best choice will depend on the specific requirements of your application. It’s recommended to consult with a qualified engineer or valve specialist to determine the best type of valve for your needs.

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How does the non woven fabric machine process manufacturing methods?

Non woven fabric machine manufacturing involves several processes:

Fiber production

Fibers such as polypropylene, polyethylene, polyester, etc. are produced and cut into short lengths called staple fibers. The staple fibers are then opened, cleaned and blended into a uniform fiber mix.

Web formation

The fiber mix is fed into a nonwoven web forming machine. The most common web forming methods are:

Spunbonding

Fibers are extruded into filaments, stretched and laid on a moving belt to form a random web. Spunbond webs are porous and lightweight.

Meltblowing

Fibers are extruded into filaments and blown by hot air onto a moving belt. Meltblown webs are very porous and fine.

Wet laying

Fibers are dispersed in water to form a slurry and laid onto a moving screen to drain excess water. Wet laid webs have high strength and absorbency.

Air laying

Fibers are blown by air onto a moving screen and form a fluffy web. Air laid webs are bulky, porous and lightweight.

Carding

Fibers are mechanically combed and aligned into a sheet. Carded webs have high strength in the fiber direction.

Bonding

The nonwoven web then goes through a bonding process to provide strength and integrity. Common bonding methods include thermal bonding, mechanical bonding (needling), chemical bonding and hydroentanglement.

Finishing

Nonwoven fabrics can be treated with a finishing process such as printing, embossing, laminating, coating, dyeing, sterilization, perfuming, etc. depending on the end use application.

Converting

The finished nonwoven fabric is wound into rolls and converted into its final form and size for various applications like diapers, wipes, medical fabrics, geotextiles, filters, etc.

Packaging

The converted nonwoven products are packaged and distributed for commercial use.