|
HS Code |
370480 |
| Fiber Type | glass fiber |
| Modulus | high |
| Linear Density | 2400 tex |
| Tensile Strength | ≥ 3900 MPa |
| Elongation At Break | ≥ 2.2% |
| Moisture Content | ≤ 0.13% |
| Compatibility | epoxy, vinyl ester resin |
| Filament Diameter | ≥ 13 μm |
| Sizing Content | 0.55–0.80% |
| Color | white |
| Surface Treatment | silane-based sizing |
| Appearance | even and uniform |
| Packing | rolls or bobbins |
| Main Application | wind turbine blade reinforcement |
| Length Per Roll | ≥ 50 km |
As an accredited 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.
|
Tensile Strength: High Modulus Roving for Wind Turbine Blades with a tensile strength of 3,500 MPa is used in the spar cap section of wind turbine blades, where it significantly increases resistance to structural fatigue. Modulus of Elasticity: High Modulus Roving for Wind Turbine Blades featuring a modulus of elasticity of 90 GPa is used in the main beam of turbine blades, where it enhances load-bearing capacity and deflection control. Filament Diameter: High Modulus Roving for Wind Turbine Blades with a filament diameter of 24 μm is used in the blade shell fabrication, where it delivers optimal resin impregnation and surface smoothness. Moisture Resistance: High Modulus Roving for Wind Turbine Blades with less than 0.1% moisture absorption is used in coastal wind farm installations, where it ensures long-term durability against humidity-induced degradation. Thermal Stability: High Modulus Roving for Wind Turbine Blades with a stability temperature of up to 250°C is used in resin infusion processes, where it prevents deformation and degradation during curing cycles. Linear Density: High Modulus Roving for Wind Turbine Blades with a linear density of 2,400 tex is used in high-thickness unidirectional laminates, where it optimizes fiber volume fraction and mechanical reinforcement. Surface Treatment: High Modulus Roving for Wind Turbine Blades with silane-based sizing is used in epoxy resin bonding applications, where it maximizes fiber-matrix adhesion and delamination resistance. Fatigue Resistance: High Modulus Roving for Wind Turbine Blades with a fatigue life exceeding 10 million cycles is used in rotor blade trailing edges, where it prolongs operational lifespan in fluctuating load environments. Void Content: High Modulus Roving for Wind Turbine Blades with a void content below 1% is used in thick composite sections, where it ensures superior mechanical integrity and minimizes failure risk. Chemical Compatibility: High Modulus Roving for Wind Turbine Blades compatible with vinyl ester and epoxy resins is used in offshore blade construction, where it offers reliable performance in chemically aggressive environments. |
| Packing | High modulus roving packaged in moisture-resistant, sealed rolls; each carton contains 20 kg, clearly labeled for wind turbine blade production. |
| Container Loading (20′ FCL) | 20′ FCL: Packed with high modulus roving, secured on pallets or coils, protected with wrappers, suitable for wind turbine blade manufacturing. |
| Shipping | The shipping of High Modulus Roving for Wind Turbine Blades is conducted in sturdy, moisture-resistant packaging to ensure material integrity. Spools are securely packed and palletized for safe transport. All shipments comply with applicable safety regulations and are handled by certified carriers to guarantee timely and damage-free delivery. |
| Storage | High Modulus Roving for Wind Turbine Blades should be stored indoors in a cool, dry, and well-ventilated area, protected from direct sunlight and moisture. The product should remain in its original, unopened packaging until use, avoiding exposure to temperature extremes and mechanical damage. Proper palletizing and handling help maintain fiber integrity and prevent contamination prior to processing. |
| Shelf Life | The shelf life of High Modulus Roving for Wind Turbine Blades is typically 12 months, when stored in original, unopened packaging. |
Competitive 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
Flexible payment, competitive price, premium service - Inquire now!
