Fiber-reinforced flexible hoses are named for their inner fiber strands. Also known as: ribbed tubes, woven hoses, etc., they are mainly used in industries with high requirements for food, cosmetics, and the like.
Structure: Core - Polyurethane (PU); Reinforcement Layer - Fiberglass Woven; Sheath - Polyurethane (PU).
Fiberglass reinforced hoses are categorized into two types: fiberglass reinforced polyurethane hoses and fiberglass reinforced nylon hoses.
Fiber Reinforced Polyurethane Hoses (XPU)
Features: Smooth surface, small bending radius
Performance: High strength, high modulus, high elasticity, tear-resistant, solvent-resistant, oil-resistant, and weather-resistant, combining the properties of both rubber and plastic. Its outer diameter, bending radius, and weight are 1/2 to 1/3 of those for the same diameter rubber hoses, making it highly convenient for process design and manual installation.
Application: High and low-pressure hoses are mainly used for high-pressure hoses, brake fluid lines on machine tools, automobiles, construction machinery, motorcycles, and pneumatic instrument lines in industrial automatic control such as oil, chemical, and smelting industries, etc.
Fiber-Reinforced Nylon Hose (XPA)
Structure: Core: Nylon (XPA); Reinforcement Layer: Fiber Weave; Sheath: Polyurethane (PU)
Features: Smooth surface, small bending radius
Performance: High strength, high modulus, high elasticity, tear and solvent resistance, oil resistance, and climate resistance, with combined properties of both rubber and plastic. Its outer diameter, bending radius, and weight are 1/2 to 1/3 of those for the same purpose rubber hoses, making it highly convenient for process design and manual installation.
Application: High and low-pressure hoses are primarily used for high-pressure hoses on machine tools, automobiles, construction machinery, motorcycles, brake fluid lines, and pneumatic instrument lines in industrial automatic control for oil, chemical, smelting, etc.
| Product Technical Specifications Sheet | ||||||||||
| British Standard Sizes | Inside Diameter x Outside Diameter | Nominal | Fiber layer | Work pressure | Burst Pressure | Minimum Radius of Curvature mm | ||||
| Inner Diameter DN | MPa | Bar | Psi | MPa | Bar | Psi | ||||
| 1/12" | 2X5 | 2 | Aramid | 63 | 630 | 180 | 1800 | 20 | ||
| 1/8" | 3X6 | 3 | Aramid | 63 | 630 | 180 | 1800 | 20 | ||
| 5/32" | 4X9 | 4 | Single Layer | 25 | 250 | 3600 | 100 | 1000 | 14500 | 35 |
| 4.2X8.8 | 4 | Single Layer | 21 | 210 | 3045 | 84 | 840 | 12200 | 35 | |
| 3/16" | 4.8X10.3 | 5 | Single-layer | 21 | 210 | 3045 | 84 | 840 | 12200 | 35 |
| 1/4" | 6.3X11.7 | 6 | Single Layer | 20 | 200 | 2900 | 80 | 800 | 11600 | 50 |
| 6.3X12.7 | 6 | Second layer | 34 | 340 | 4930 | 136 | 1360 | 19720 | 75 | |
| 5/16" | 7.9X14.3 | 8 | Single Layer | 21 | 210 | 3045 | 78 | 780 | 11310 | 50 |
| 7.9X15.8 | 8 | Second layer | 31 | 310 | 4495 | 124 | 1240 | 17980 | 85 | |
| 3/8" | 9.5X15.9 | 10 | 1 layer | 20 | 200 | 2900 | 70 | 700 | 10150 | 80 |
| 9.5X18 | 10 | Two-layer | 25 | 250 | 3625 | 100 | 1000 | 14500 | 100 | |
| 1/2" | 12.7X19.8 | 13 | One layer | 16 | 160 | 2300 | 65 | 650 | 9400 | 100 |
| 12.7X21.6 | 13 | Second Floor | 22 | 220 | 3190 | 88 | 880 | 12760 | 140 | |
| 5/8" | 15.9X23.3 | 16 | One layer | 13 | 130 | 1885 | 52 | 520 | 7540 | 160 |
| 15.9X23.6 | 16 | Second-layer | 14 | 140 | 2030 | 76 | 760 | 11000 | 165 | |
| 3/4" | 18.9X26.5 | 19 | Single Layer | 9 | 90 | 1305 | 36 | 360 | 5220 | 180 |
| 18.9X28.3 | 19 | Two-layer | 12 | 120 | 1700 | 56 | 560 | 8120 | 195 | |
| 1" | 25.4X34 | 25 | Single-layer | 7 | 70 | 1015 | 28 | 280 | 4060 | 250 |
| 25X34.5 | 25 | Second Layer | 10.5 | 105 | 1500 | 40 | 400 | 5800 | 256 | |
| 7/8" | 22X29 | 22 | Single Layer | 11 | 110 | 1590 | 33 | 330 | 4780 | 220 |
