High-pressure resin hose: an ideal companion for petroleum-based hydraulic oil delivery
In modern industry and engineering, hydraulic systems have become a vital power transmission system. For hydraulic systems, the choice of hydraulic oil directly affects the efficiency and life of the entire system. In the process of delivering petroleum-based hydraulic oil, steel wire braided high-pressure resin hose is one of the most ideal supporting products. This article will discuss in detail the characteristics, advantages and importance of steel wire braided high-pressure resin hose in industrial applications.
Basic characteristics of high-pressure resin hose
Steel wire braided high-pressure resin hose is made of wear-resistant, high-tensile synthetic rubber or special synthetic resin, and the outer layer is woven with high-strength steel wire. This design greatly improves the working pressure and wear resistance of the hose. Generally, this type of hose can withstand pressures of up to hundreds of Pa and can work stably in complex environments.
Material structure
The inner layer of the hose is usually made of synthetic rubber with excellent oil resistance, such as nitrile rubber (NBR) or fluororubber (FKM), which provides the hose with good heat resistance and chemical stability. The role of the outer steel wire braiding is to enhance strength and wear resistance, making it suitable for long-term use under high pressure, high temperature and harsh environments. This multi-layer structure design not only makes the hose have excellent durability when transporting liquids, but also effectively prevents hydraulic oil leakage.
Processing
The production process of each steel wire braided high-pressure resin hose is strictly controlled to ensure its excellent performance. The key steps in the production process include material selection, process control and final testing. During the braiding process, it is necessary to ensure the uniform distribution and tight bonding of the steel wire to prevent the hose from being deformed or broken due to external force extrusion during use. In addition, the uniformity of the mixture of resin and rubber must also be strictly controlled to ensure the softness and tensile resistance of the hose.
Application fields and advantages
In a variety of hydraulic oil delivery applications, steel wire braided high-pressure resin hoses have demonstrated their irreplaceable superiority. It is widely used in engineering machinery, oil drilling equipment, mining machinery, and shipping equipment. The following are some of its advantages in the application process:
High-pressure bearing capacity
In high-pressure hydraulic systems, due to the high-pressure thrust of the oil, the hose must be able to withstand huge internal and external pressures. The steel wire braiding design ensures the high-pressure bearing capacity of the hose, which can meet the requirements of high-power equipment without problems such as expansion and rupture.
Wear and corrosion resistance
In the process of conveying petroleum-based hydraulic oil, wear resistance and corrosion resistance are important considerations. High-pressure resin hose has excellent oil resistance and chemical resistance, which can effectively resist the corrosion of hydraulic oil and other chemicals and extend its service life.
Excellent flexibility
Despite its high strength, the high-pressure resin hose still maintains excellent flexibility. This means that it can be easily used in complex pipeline layouts without the difficulty of installation due to high hardness. In addition, this flexibility also makes the hose more elastic and shock-resistant during operation, effectively improving the stability of the system.
High temperature resistance
In high-temperature working environments, ordinary hoses may lose elasticity or even burst due to thermal expansion. The material properties of the steel wire braided high-pressure resin hose give it excellent high-temperature resistance, suitable for use in harsh high-temperature environments, and will not deform or degrade due to temperature.
Importance in industrial applications
In modern industrial applications, high-pressure resin hoses have become an important part of ensuring the normal operation of equipment. Its quality and performance directly affect the safety and efficiency of production equipment and the entire system:
Application in construction machinery
Construction machinery needs to frequently change construction positions and working conditions during construction, which places high demands on the flexibility and adaptability of the hydraulic system. Due to its high strength and flexibility, high-pressure resin hoses can meet the needs of hydraulic equipment under high load and dynamic conditions, providing a guarantee for the efficient operation of construction machinery.
Application in mining equipment
Mining equipment usually faces extremely harsh working conditions, and hoses face many challenges such as mine dust, impact, and high temperature. Therefore, steel wire braided high-pressure resin hoses with wear resistance and high pressure resistance have become an ideal choice for mining machinery hydraulic systems. Its wear-resistant properties both inside and outside ensure that the hose can still maintain excellent performance in long-term harsh environments.
Application in oil drilling equipment
The working conditions of oil drilling equipment are extremely complex, and they often need to operate continuously under harsh environments such as high pressure, high temperature, and heavy pollution. With its excellent pressure bearing capacity and chemical stability, high-pressure resin hoses can effectively solve the problems in hydraulic oil transportation and improve the overall stability and work efficiency of drilling equipment.
Conclusion
As an indispensable part of the hydraulic system, the steel wire braided high-pressure resin hose has become the first choice in industrial and mechanical equipment applications due to its excellent pressure bearing capacity, wear resistance and great flexibility. This article only briefly analyzes its structure, application and advantages. In the future, we need to continue to explore more optimized solutions in industrial environments to provide support for the integration and development of emerging industries and traditional industries.