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HS Code |
349989 |
| Material Type | Carbon Fiber |
| Modulus Of Elasticity | >= 400 GPa |
| Tensile Strength | Approximately 4500 MPa |
| Fiber Density | 1.75-1.85 g/cm³ |
| Linear Density | 12K tows (or specified by manufacturer) |
| Moisture Absorption | <0.1% |
| Filament Diameter | 5-7 microns |
| Resin Compatibility | Epoxy, Vinyl ester, Polyester |
| Surface Treatment | Silanized or custom sizings |
| Elongation At Break | 1.0-1.7% |
| Electrical Conductivity | High |
| Color | Black |
| Application Temperature | Up to 350°C |
| Twist Level | Low or untwisted for roving |
| Package Form | Creel or spool wound |
As an accredited Ultra High Modulus Roving for Wind Turbine Blades factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Tensile Strength: Ultra High Modulus Roving for Wind Turbine Blades with tensile strength above 5.5 GPa is used in main spar cap structures, where it ensures exceptional load-bearing capacity under high wind stress. Modulus of Elasticity: Ultra High Modulus Roving for Wind Turbine Blades possessing a modulus of elasticity over 290 GPa is used in the manufacture of long rotor blades, where it enhances stiffness and minimizes blade deflection. Linear Density: Ultra High Modulus Roving for Wind Turbine Blades with a linear density of 1200 tex is used in automated fiber placement processes, where it provides consistent material flow and accurate layup. Moisture Resistance: Ultra High Modulus Roving for Wind Turbine Blades engineered with moisture absorption below 0.03% is used in offshore turbine blades, where it guarantees dimensional stability and structural reliability in marine environments. Thermal Stability: Ultra High Modulus Roving for Wind Turbine Blades rated for stability up to 250°C is used during high-temperature curing cycles, where it maintains fiber integrity and optimal resin bonding. Filament Diameter: Ultra High Modulus Roving for Wind Turbine Blades with a filament diameter of 12 microns is used in precision composite layering, where it offers excellent surface smoothness and superior mechanical performance. Resin Compatibility: Ultra High Modulus Roving for Wind Turbine Blades with DCPD epoxy compatibility is used in advanced resin infusion techniques, where it delivers improved fiber wet-out and enhanced laminate strength. Purity Level: Ultra High Modulus Roving for Wind Turbine Blades with purity above 99.5% is used in primary blade reinforcements, where it reduces the risk of defects and ensures long-term durability. Surface Treatment: Ultra High Modulus Roving for Wind Turbine Blades treated with silane-based sizing is used in multiaxial fabric production, where it increases interfacial adhesion and optimizes energy transfer. |
| Packing | The packaging contains 500 kg of Ultra High Modulus Roving, securely wound on large bobbins, wrapped in protective film, and boxed. |
| Container Loading (20′ FCL) | 20′ FCL loading: Ultra High Modulus Roving packed on pallets, securely wrapped, ensuring moisture protection and stable stacking for safe transit. |
| Shipping | The **Ultra High Modulus Roving for Wind Turbine Blades** is securely packaged on reinforced pallets, wrapped in moisture-proof film, and shipped in climate-controlled containers to maintain product integrity. Each reel is clearly labeled with batch and handling information, ensuring safe transport and efficient identification upon arrival at the destination. |
| Storage | Ultra High Modulus Roving for Wind Turbine Blades should be stored indoors in a clean, dry, and well-ventilated area, away from direct sunlight and moisture. The material should remain in its original, unopened packaging until use to prevent contamination or damage. Avoid stacking heavy objects on top, and maintain moderate temperature conditions to preserve its integrity and performance properties. |
| Shelf Life | Ultra High Modulus Roving should be used within 12 months from the date of manufacture when stored in original packaging. |
Competitive Ultra High Modulus Roving for Wind Turbine Blades prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@ascent-chem.com
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