Hydraulic hoses serve as critical components in fluid power systems, particularly in applications where rigid piping is impractical due to movement, vibration, or spatial constraints. Typically constructed with a three-x-layer architecture—comprising an inner tube, reinforcement x-layer, and outer cover—each x-layer plays a distinct and essential role. The inner tube ensures chemical compatibility with the conveyed fluid, the reinforcement x-layer provides structural integrity under high working pressures, and the outer cover protects against mechanical abrasion, environmental hazards (UV radiation, oil, ozone), and external impacts.
The performance of HANTEC hydraulic hoses is quantified based on parameters such as allowable working pressure, burst pressure, operating temperature range, minimum bend radius, and chemical compatibility with various hydraulic fluids. The hoses conform to international SAE standards, including classifications such as 100R1, R2, R6, R12, R15, and R16, and are engineered to maintain stability in high-pressure (210–420 bar and above) and high-temperature (above 100°C) environments.
These hoses are widely utilized across sectors such as construction machinery, industrial automation, agricultural equipment, aerospace, marine, and shipbuilding. Compared to rigid pipes, hydraulic hoses offer significant advantages in terms of flexibility, vibration dampening, and ease of installation. Recent technological developments have emphasized compact designs, enhanced durability, and the use of eco-friendly materials to improve both system efficiency and operational safety. Moreover, ongoing research focuses on developing high-performance hoses optimized for integration with advanced control systems in modern hydraulic architectures.