SAE 100R1AT/1SN single-layer steel wire braided rubber hose represents a standardized product widely used in hydraulic systems. Its design concept focuses on providing users with reliable and efficient liquid media transportation solutions. Not only is this hose carefully designed in structure to ensure its stability and reliability in high-pressure working environments, it has also passed a variety of rigorous tests and standard verifications to ensure that it meets the quality and performance requirements of SAE standards.
A major feature of SAE 100R1AT/1SN hose is its single-layer steel wire braided construction. This structure effectively enhances the pressure resistance of the hose while maintaining its flexibility. The steel wire braid can not only withstand liquid media under high pressure, but also has certain wear resistance, thereby extending the service life of the hose. The advantage of this design is that it can maintain stable performance in complex working environments and can reliably deliver liquid media whether under high pressure or in frequent use.
Another convincing feature is that the hose is suitable for conveying a wide range of liquid media. Common media such as hydraulic oil, liquid petroleum, and water can be transported through this hose. This versatility makes the hose broadly applicable in a variety of industrial applications. Whether used in construction, mining, agriculture or engineering machinery, SAE 100R1AT/1SN hoses are capable of different tasks and provide users with reliable liquid media delivery solutions.
In addition to its excellent performance in conveying liquid media, the hose also has certain temperature resistance. It can withstand working in high temperature environments within a certain range and maintain stable performance. This means that even under high temperature conditions, the hose can still operate safely and reliably, and the performance of the hose will not be reduced or damaged due to excessive temperature, thus ensuring the stable operation and safe operation of the hydraulic system.