12mm high modulus fireproof twisted Aramid Fiber String Product description:
Braided Aramid Fiber Rope is a high-strength, high elastic modulus synthetic fiber rope commonly used in industries such as navigation, industrial ropes, and construction. Here are some standards for Aramid fiber string:
1. Load testing standards: Aramid Fiber String must undergo load testing before use to verify their strength and reliability.The standard test load should not be less than the minimum breaking force of the rope, and the testing methods are usually static tensile testing and dynamic impact testing.
2. Wear resistance standard: aramid rope needs to have strong wear resistance to extend the service life of the rope. often the testing methods used include wear testing and fracture testing.
3. UV resistance: Aramid Fiber Rope also need to have good UV resistance to avoid long-term outdoor exposure.Exposure leads to aging and damage. Common testing methods include UV aging test and friction test.
Products details |
Product | Aramid fiber rope |
Material | 100% aramid fiber |
Diameter | 12mm |
Pattern | Braided |
Color | Yellow or customizd |
Temperature | -196℃ ~ +380℃ |
Package | Customized |
Application:
1. High-temp furnace and high-temp machinery series.
2. Mechanical wire series.
3. Cable wire series.
4. Fire safety series.
5. Car stereo wire series.
Product Tech Data:
1.The high strength of aramid fiber is 6 times as strong as steel wire, 3 times as strong as glass fiber, and 2 times as strong as nylon industrial wire.
2.The tensile modulus of aramid fiber is 3 times that of steel wire, 2 times that of glass fiber and 10 times that of high-strength nylon industrial wire.
3.The continuous use temperature range of aramid fiber is extremely wide, which can use for a long time from -196℃ to +330℃. Shrinkage rate can be zero under the condition of 150 ℃, and can melt with high temperature of over 560 ℃.
4.Mechanical properties: strength: 3.6 GPa, elongation modulus: 131 GPa, breaking elongation: 2.8 %.
5.Thermal performance: the long-term use of temperature: 380 ℃, the axial thermal expansion coefficient: - 2 x 10 ^ (6)/K, thermal conductivity: 0.048 W (m, K).