Efficient and multi-purpose industrial rubber pipe: resistant to high pressure, oil, high temperature and acid and alkali
Rubber pipes play a vital role in many industrial applications, such as chemical plants, mines, manufacturing and other industries where fluids and gases need to be transported. Especially industrial hoses such as cord rubber pipes and air hoses must be able to withstand extreme working environments, such as high pressure, high temperature and corrosive chemicals. This article will explore in detail the characteristics of these industrial rubber hoses, including their ability to withstand high pressure, oil resistance, high temperature resistance, abrasion resistance, and acid and alkali resistance, while also analyzing the various uses of these hoses in industry.
High pressure resistance
In the petroleum industry, construction sites, and automobile manufacturing, cord rubber hoses (also known as clamp hoses) are widely used due to their excellent pressure resistance. These hoses are typically reinforced with one or more layers of steel cord, allowing them to withstand pressures of up to thousands of PSI. A typical high-pressure rubber hose may be used in a hydraulic system to deliver hydraulic fluid to power heavy machinery such as excavators and lifts.
Oil resistance
In the automotive industry and machinery manufacturing, oil-resistant rubber tubes are irreplaceable. These hoses are designed to transport oily liquids such as engine oil, lubricating oil, and fuel. Oil-resistant rubber pipes are usually made of special synthetic rubber such as nitrile butadiene rubber (NBR), which is widely used for its excellent resistance to grease.
High temperature resistance
High temperature resistant rubber pipes play a key role in many industries that need to handle hot fluids or work in high temperature environments. These hoses are capable of withstanding prolonged temperatures up to 150°C and higher. Applications at high temperatures include transporting pressurized water, steam and thermal oil. High temperature resistant hoses are usually made of silicone or fluoroelastomer (FKM), which have excellent thermal stability and chemical inertness.
Wear resistance
In the mining and construction industries, wear-resistant rubber pipes are used to transport materials containing abrasive particles, such as sand, gravel and cement. These rubber tubes are designed with a thick inner rubber layer and a reinforced outer rubber layer that can resist the abrasion of materials and extend their service life. Commonly used wear-resistant materials include natural rubber and polyurethane.
Acid and alkali resistance
Acid and alkali resistant rubber pipes are often used in the chemical industry and wastewater treatment plants to transport acids, alkalis and other chemical solutions. These hoses need to be made of special rubber formulas, such as EPDM (ethylene propylene diene monomer), which can resist corrosion from chemicals and prevent premature aging and damage of pipes due to chemical reactions.
Application of water conveying and suction clamping hoses
Widely used in fire extinguishing, agricultural irrigation and industrial cleaning, the water delivery and suction clamp hose has the characteristics of high strength, wear resistance and good elasticity. This type of hose is typically constructed from multiple layers of synthetic and fabric cords coated with a waterproof material to ensure efficient water delivery in a variety of environments.
Conclusion
Through the above detailed description, we can clearly see how industrial hoses such as cord rubber pipes and air hoses can perform in various extreme and harsh jobs due to their high pressure resistance, oil resistance, high temperature resistance, wear resistance, and acid and alkali resistance. environment, play a vital role. Choosing the correct type of rubber hose is critical to ensuring safe, efficient and economical operation of industrial processes. With the advancement of technology, the performance of these industrial rubber pipes will be more superior and the application fields will be wider in the future.