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Air tubes are used to connect pneumatic equipment, including cylinders, fittings, directional control valves, and more. They have widespread applications across diverse industries such as automotive, manufacturing, food, pharmaceuticals, and others. When selecting an air tube, it is crucial to consider factors like outer and inner diameter, as well as materials like Urethane (Polyurethane), Nylon, Fluororesin, Polyamide, and Silicone Rubber, among others. Different shapes such as straight, coil, and multi-spiral types (2 cores, 3 cores, and 4 cores) should also be taken into account, along with the operating environment and desired length. Additionally, we offer tubes capable of supporting various fluids such as water, chemicals, and general hydraulic oil. Complementary products like tube cutters and replacement blades are also available. For top-quality products, we highly recommend trusted brands such as MISUMI, SMC, PISCO, and CHIYODA. Take advantage of the convenience of FREE SHIPPING and NO MINIMUM ORDER on Air tubes and related products. Should you have any doubts or require assistance in choosing the right product, our experts are readily available to provide advice and guidance.
[Features] ・ Fluoropolymer tube with excellent barrier properties ・ Hybrid tube with fluoropolymer PFA for the inner layer and barrier fluoropolymer for the outer layer ・ The inner layer of the liquid wetted parts uses PFA for semiconductors and has high basic characteristics (purity, chemical resistance, non-adhesion, heat resistance) for semiconductor piping applications ・ Barrier fluoropolymer has excellent barrier properties against acids (hydrochloric acid, nitric acid, etc.) and ammonia ・ Suppresses acid permeation compared to conventional PFA tube piping ・ Reduces adverse environment to the surrounding environment ・ Maintains fluid transparency for a long time ・ Mechanical properties are equivalent to conventional PFA tubes ・ Manufactured in a clean environment that is consistently controlled from raw material input to molding and packaging [Applications] ・ Tube for semiconductor / liquid crystal manufacturing equipment ・ Tube for solar battery panel manufacturing equipment ・ Tube for chemical supply / cleaning device ・ Tube for chemical plant
Outer Dia. D(Ø)
Inner Dia. d(Ø)
Material
Applicable Fluid
Color
Type
Operating Environment
O.D. [Distinction]
Cutting Service Usage
Material: Nylon
I.D. [Distinction]
Material, Fluororesin
Material, Urethane
Number of Core(Core)
Types of Related components
25.4
22.2
Fluororesin
Water / Air / Chemical
Others
Straight
Standard / Corrosion Resistant / Water Resistance / Heat Resistance / Chemical Resistance
~30
No
-
~30
Others
-
-
-
From:
₹ 19,597.05
Days to Ship:
11 Day(s) or more
11 Day(s) or more
Brand
Product Series
From
Days to Ship
Outer Dia. D(Ø)
Inner Dia. d(Ø)
Material
Applicable Fluid
Color
Type
Operating Environment
O.D. [Distinction]
Cutting Service Usage
Material: Nylon
I.D. [Distinction]
Material, Fluororesin
Material, Urethane
Number of Core(Core)
Types of Related components
You can add up to 6 items per a category to the compare list.
Answer: Common air tube materials include:
Silicone: flexible, long-lasting, and resistant to kinking. Often used in aquariums and for delicate applications.
Polyurethane (PU): tougher and more resistant to heat and chemicals than silicone. Frequently used in pneumatic systems and industrial settings.
Rubber: Affordable and widely available, but not as durable as other options.
Question: What are the applications of polyurethane tube?
Answer: Polyurethane tubes are used in a wide range of applications across various industries. They find particular use in industries such as the automotive industry, robotics and automation, industrial machinery, and the food and beverage industry. In pneumatic systems, they are utilized to connect pneumatic equipment, including air fittings, air guns, directional control valves, and more. Additionally, polyurethane tubes serve multiple purposes, such as fluid transfer, vacuum systems, agricultural equipment, medical equipment, HVAC systems, and more.
Question: What are the benefits of using polyurethane rubber hoses?
Answer: The benefits of using polyurethane rubber hoses include:
1. Flexibility: Polyurethane hoses are highly flexible, making them easy to handle, install, and maneuver in tight spaces.
2. Durability: They are resistant to abrasion, impact, and tearing, resulting in longer service life and reduced maintenance costs.
3. Chemical Resistance: Polyurethane hoses exhibit good resistance to a wide range of chemicals, including oils, fuels, solvents, and many gases.
4. High Strength: Despite their flexibility, they have high tensile strength and can withstand high pressures without deformation.
5. Lightweight: Polyurethane hoses are lightweight, which improves handling and reduces the overall weight of the system.
6. Temperature Resistance: They can withstand a wide temperature range, enabling their use in both high-temperature and low-temperature applications.
7. UV Resistance: Many polyurethane hoses have good resistance to ultraviolet (UV) radiation, making them suitable for outdoor applications.
8. Versatility: Polyurethane hoses can be used in various industries and applications, including pneumatic systems, fluid transfer, vacuum systems, and more.
9. Reduced Noise: They have excellent noise-damping properties, reducing the noise level in pneumatic systems and improving workplace comfort.
Question: What are the difference between Polyurethane vs. traditional rubber hoses?
Answer: 1. Material: Polyurethane hoses are made from thermoplastic polyurethane (TPU), while traditional rubber hoses are made from natural or synthetic rubber.
2. Flexibility: Polyurethane hoses are more flexible and can be bent without kinking, while traditional rubber hoses are less flexible.
3. Abrasion Resistance: Polyurethane hoses have excellent abrasion resistance, while traditional rubber hoses are generally less resistant to abrasion.
4. Chemical Compatibility: Polyurethane hoses have better chemical resistance, while traditional rubber hoses may have limitations in certain chemical applications.
5. Temperature Range: Polyurethane hoses have a wider temperature range, while traditional rubber hoses may have limitations at extreme temperatures.
6. Weight: Polyurethane hoses are lighter in weight compared to traditional rubber hoses.
7. Cost: traditional rubber hoses are typically more cost-effective than polyurethane hoses.
Remember that specific properties can vary based on manufacturer and application, so it's always a good idea to consult product specifications for accurate information.
Question: How to choose the right polyurethane hose for your application?
Answer: Here are some factors to consider when choosing the right polyurethane tube for your application:
1. Pressure rating: The pressure rating of the tube must be higher than the pressure of the fluid or gas that will be flowing through it.
2. Temperature range: The tube must be able to withstand the temperature of the fluid or gas that will be flowing through it.
3. Chemical resistance: The tube must be resistant to the chemicals that will be flowing through it.
4. Flexibility: The tube must be flexible enough to accommodate the bends and curves in your application.
5. Tensile strength: The tube must be strong enough to withstand the forces that will be exerted on it.
6. Weight: The weight of the tube is important if you need to move it around or install it in a difficult location.
7. Cost: The cost of the tube is an important factor to consider, especially if you need a large quantity of it.
Question: How to choose the right polyurethane hose for your application?
Answer: Here are some factors to consider when choosing the right polyurethane tube for your application:
1. Pressure rating: The pressure rating of the tube must be higher than the pressure of the fluid or gas that will be flowing through it.
2. Temperature range: The tube must be able to withstand the temperature of the fluid or gas that will be flowing through it.
3. Chemical resistance: The tube must be resistant to the chemicals that will be flowing through it.
4. Flexibility: The tube must be flexible enough to accommodate the bends and curves in your application.
5. Tensile strength: The tube must be strong enough to withstand the forces that will be exerted on it.
6. Weight: The weight of the tube is important if you need to move it around or install it in a difficult location.
7. Cost: The cost of the tube is an important factor to consider, especially if you need a large quantity of it.
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