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High Strength Durable Carbon Fiber Weave Roll Unidirectional Carbon Fiber Sheet

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High Strength Durable Carbon Fiber Weave Roll Unidirectional Carbon Fiber Sheet

MOQ:	300㎡
Price:	$9.15-$12.39（㎡）
Standard Packaging:	Palletize
Delivery Period:	3-7 work days
Payment Method:	T/T
Supply Capacity:	15000㎡/month

Detail Information

Product Description

Ratings & Reviews

Detail Information

Place of Origin

CHINA

Brand Name

WGSC

Certification

ISO9001

Grade:

T300/T700

Weave Structure:

Plain

Areal Density (g/m²):

Custom-made

Resin Wet-Out Time:

≤20s /≤25s/≤30s

Weave Type:

Plain

Electrical Conductivity:

Low

Highlight:

High Strength Carbon Fiber Weave Roll

High Strength Unidirectional Carbon Fiber Sheet

Durable Carbon Fiber Weave Roll

Product Description

Carbon Fiber Plain Weave Fabric: High-Strength Composite Reinforcement For Aerospace

Attribute	Value
Fiber Type	E-Glass
Width	1040mm
Tensile Strength	≥30N/50mm
Color	White
Resin Compatibility	Polyester, Vinyl Ester, Epoxy
Binder Type	Emulsion

Product Introduction

Carbon Fiber Plain Weave Fabric is a lightweight, high-strength composite material made by interlacing carbon fiber yarns in a simple over-under pattern. This uniform structure ensures balanced mechanical properties and exceptional durability.

High Tensile Strength: Ranges from 3,000-5,000 MPa, ideal for structural applications requiring minimal weight.
Lightweight: Density as low as 1.5-2.0 g/cm³, critical for aerospace and automotive industries.
Corrosion Resistance: Impervious to acids, alkalis, and solvents, making it suitable for harsh environments.
Thermal Stability: Operates effectively up to 400°C without significant degradation.
Electrical Conductivity: Non-conductive properties ensure safety in electronic and aerospace applications.

Manufacturing Process

Precursor Processing: Polyacrylonitrile (PAN) fibers are stabilized at 200-300°C and carbonized at 1,000-3,000°C to form graphite-like structures.
Yarn Formation: Carbon filaments (5-25 µm diameter) are bundled into tows (e.g., 3K, 6K, 12K) for uniformity.
Weaving: Tows are interlaced in a plain weave pattern (0°/90°) using automated looms to create a tight, checkerboard structure.
Surface Treatment: Coated with sizing agents (e.g., silane) to enhance resin adhesion and UV resistance.
Quality Control: ISO 9001-certified testing for tensile strength, thickness uniformity, and fiber alignment.

Usage Precautions

Handling: Wear PPE (gloves, goggles) to avoid fiber irritation; use sharp tools cautiously to prevent breakage.
Resin Compatibility: Match fabric type (e.g., standard modulus vs. high modulus) with epoxy, polyester, or vinyl ester resins.
Curing Conditions: Maintain 120-150°C and 0.5-1.0 MPa pressure during curing to eliminate voids.
Storage: Store in dry, ventilated areas (humidity <60%); avoid prolonged UV exposure to prevent coating degradation.

Specifications

Material	PAN-based carbon fiber + epoxy sizing
Density	1.5-2.0 g/cm³
Weight	200-500 g/m²
Thickness	0.2-0.6 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-200 GPa
Operating Temp	-60°C to +400°C (short-term: 600°C)
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications & Case Studies

A. Aerospace

Aircraft Components

Reinforces fuselage panels, wings, and engine mounts for lightweight durability.

Case: Boeing 787 Dreamliner uses plain weave fabric in wing structures to reduce weight by 20%.

B. Automotive

Body Panels

Enhances strength of EV door panels and chassis components.

Case: Tesla Model S uses plain weave fabric in battery trays for crash resistance.

C. Wind Energy

Turbine Blades

Reinforces leading edges to withstand high wind loads and fatigue.

Case: GE Haliade-X offshore wind turbine blades use plain weave for extended lifespan.

D. Marine

Boat Hulls

Corrosion-resistant alternative to steel/aluminum.

Case: Benetti superyachts employ plain weave fabric in hull laminates for 15+ years of saltwater durability.

E. Industrial Piping

Pressure Vessels

Reinforces FRP tanks for chemical storage.

Case: Dow Chemical's storage tanks use plain weave-reinforced polyester for 25+ years of leak-free service.

F. Sports & Safety

Protective Gear

Helmets and automotive safety belts.

Ratings & Review

Overall Rating

5.0

Based on 50 reviews for this supplier

Rating Snapshot

The following is the distribution of all ratings

5 stars

4 stars

3 stars

2 stars

1 stars

All Reviews

High Performance Fire Resistant Basalt Fiber Roving Continuous Basalt Fiber

Papua New Guinea Nov 2.2025

Helpful (6)

As a civil engineer in PNG’s Highlands, transporting heavy materials is a nightmare. Your 330 tex basalt yarns were a lifesaver for our suspension bridge retrofit. At just 9μm filament diameter, the woven roving weighed 60% less than steel wire mesh while handling 800kg/m² tensile loads. Local installers loved the UV-resistant spool packaging—no degradation after 3-month jungle storage. Critical for us: the ISO9001-certified ISO 2230 moisture barrier ensured 0% corrosion during monsoon season. Total project cost dropped by 55%, and we’re now standardizing on WGSC for all rural infrastructure.

Eco Friendly Standard Chopped Strand Mat Non Woven Fiberglass Mat For Marine Panels

Germany Oct 29.2025

Helpful (4)

In our automotive plant near Stuttgart, we replaced metal reinforcements with WGSC's 450g/m² Fiberglass Mat for lightweight car bumpers. The binder's rapid resin impregnation (≤60 sec) slashed production time by 25%, while the 90% wet strength retention ensured long-term durability. The customized width options (up to 3,300mm) perfectly matched our mold designs. Plus, their FOB shipping terms made global supply chain management seamless. A top choice for EV manufacturers prioritizing sustainability!

High Strength Fiber Reinforced Plastic Panels Frp Plastic Sheet For Industrial Applications

Brazil Aug 28.2025

Helpful (22)

We used WGSC’s FRP Panels for the walkways and equipment platforms at our São Paulo ethanol plant—where constant steam and organic acids demand tough materials. The 8mm thick, 1000x2000mm panels (with a glass fiber-reinforced polyester core) handled 200kg/m² foot traffic and 80°C steam exposure without cracking. Their anti-slip surface (Ra 6.3 texture) improved worker safety, and the modular design let us assemble 200m² of platforms in 3 days. Mariana Silva, our project engineer, highlighted the São Paulo distributor’s JIT delivery—panels arrived just as our concrete bases cured. With a 20-year lifespan estimate, these panels are a smart investment for Brazilian agro-industrial sites!

Tags:

carbon fiber cloth,

carbon fiber weave roll,

carbon fiber woven fabric

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High Strength Durable Carbon Fiber Weave Roll Unidirectional Carbon Fiber Sheet

MOQ:	300㎡
Price:	$9.15-$12.39（㎡）
Standard Packaging:	Palletize
Delivery Period:	3-7 work days
Payment Method:	T/T
Supply Capacity:	15000㎡/month

Detail Information

Product Description

Detail Information

Place of Origin

CHINA

Brand Name

WGSC

Certification

ISO9001

Grade:

T300/T700

Weave Structure:

Plain

Areal Density (g/m²):

Custom-made

Resin Wet-Out Time:

≤20s /≤25s/≤30s

Weave Type:

Plain

Electrical Conductivity:

Low

Minimum Order Quantity:

300㎡

Price:

$9.15-$12.39（㎡）

Packaging Details:

Palletize

Delivery Time:

3-7 work days

Payment Terms:

T/T

Supply Ability:

15000㎡/month

Highlight

High Strength Carbon Fiber Weave Roll

High Strength Unidirectional Carbon Fiber Sheet

Durable Carbon Fiber Weave Roll

Product Description

Carbon Fiber Plain Weave Fabric: High-Strength Composite Reinforcement For Aerospace

Attribute	Value
Fiber Type	E-Glass
Width	1040mm
Tensile Strength	≥30N/50mm
Color	White
Resin Compatibility	Polyester, Vinyl Ester, Epoxy
Binder Type	Emulsion

Product Introduction

High Tensile Strength: Ranges from 3,000-5,000 MPa, ideal for structural applications requiring minimal weight.
Lightweight: Density as low as 1.5-2.0 g/cm³, critical for aerospace and automotive industries.
Corrosion Resistance: Impervious to acids, alkalis, and solvents, making it suitable for harsh environments.
Thermal Stability: Operates effectively up to 400°C without significant degradation.
Electrical Conductivity: Non-conductive properties ensure safety in electronic and aerospace applications.

Manufacturing Process

Precursor Processing: Polyacrylonitrile (PAN) fibers are stabilized at 200-300°C and carbonized at 1,000-3,000°C to form graphite-like structures.
Yarn Formation: Carbon filaments (5-25 µm diameter) are bundled into tows (e.g., 3K, 6K, 12K) for uniformity.
Weaving: Tows are interlaced in a plain weave pattern (0°/90°) using automated looms to create a tight, checkerboard structure.
Surface Treatment: Coated with sizing agents (e.g., silane) to enhance resin adhesion and UV resistance.
Quality Control: ISO 9001-certified testing for tensile strength, thickness uniformity, and fiber alignment.

Usage Precautions

Handling: Wear PPE (gloves, goggles) to avoid fiber irritation; use sharp tools cautiously to prevent breakage.
Resin Compatibility: Match fabric type (e.g., standard modulus vs. high modulus) with epoxy, polyester, or vinyl ester resins.
Curing Conditions: Maintain 120-150°C and 0.5-1.0 MPa pressure during curing to eliminate voids.
Storage: Store in dry, ventilated areas (humidity <60%); avoid prolonged UV exposure to prevent coating degradation.

Specifications

Material	PAN-based carbon fiber + epoxy sizing
Density	1.5-2.0 g/cm³
Weight	200-500 g/m²
Thickness	0.2-0.6 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-200 GPa
Operating Temp	-60°C to +400°C (short-term: 600°C)
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications & Case Studies

A. Aerospace

Aircraft Components

Reinforces fuselage panels, wings, and engine mounts for lightweight durability.

Case: Boeing 787 Dreamliner uses plain weave fabric in wing structures to reduce weight by 20%.

B. Automotive

Body Panels

Enhances strength of EV door panels and chassis components.

Case: Tesla Model S uses plain weave fabric in battery trays for crash resistance.

C. Wind Energy

Turbine Blades

Reinforces leading edges to withstand high wind loads and fatigue.

Case: GE Haliade-X offshore wind turbine blades use plain weave for extended lifespan.

D. Marine

Boat Hulls

Corrosion-resistant alternative to steel/aluminum.

Case: Benetti superyachts employ plain weave fabric in hull laminates for 15+ years of saltwater durability.

E. Industrial Piping

Pressure Vessels

Reinforces FRP tanks for chemical storage.

Case: Dow Chemical's storage tanks use plain weave-reinforced polyester for 25+ years of leak-free service.

F. Sports & Safety

Protective Gear

Helmets and automotive safety belts.

Tags: