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Corrosion Resistant Carbon Fiber Twill High Performance Premium Composite Reinforcement

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Corrosion Resistant Carbon Fiber Twill High Performance Premium Composite Reinforcement

MOQ:	300㎡
Price:	$9.58-$12.68（㎡）
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:

2×2 Twill/4H Satin/5H Satin

Areal Density (g/m²):

Custom-made

Resin Wet-Out Time:

≤20s /≤25s/≤30s

Elongation:

1.5%

Material:

Carbon Fiber

Highlight:

Corrosion Resistant Carbon Fiber Twill

Corrosion Resistant carbon fiber fabric roll

High Performance Carbon Fiber Twill

Product Description

Carbon Fiber Twill Fabric | Premium Composite Reinforcement For Demanding Applications

Attribute	Value
Thickness	0.5mm
Width	1040mm
Surface Treatment	Silane Sizing
Shelf Life	6 months
Moisture Content	≤ 0.2%
Application	Hand Lay-up, Filament Winding, Compression Molding

Product Introduction

Carbon Fiber Twill Fabric is engineered for applications requiring a balance of strength, flexibility, and aesthetic appeal. Characterized by its 2x2 or 4x4 twill weave pattern, this material offers enhanced drapeability and resistance to fraying, making it ideal for curved or complex geometries.

High Tensile Strength: Ranges from 3,000 -5,000 MPa, making it suitable for structural components under heavy stress.
Lightweight: Density as low as 1.5 -2.0 g/cm³, critical for aerospace and automotive industries.
Thermal Stability: Operates effectively up to 300 °C without significant degradation.
Corrosion Resistance: Impervious to acids, alkalis, and moisture, ideal for marine and industrial applications.

Manufacturing Process

Precursor Processing:
Polyacrylonitrile (PAN) fibers undergo stabilization (200-300°C) and carbonization (1,000-3,000°C) to form graphite-like structures.
Weaving:
Carbon filaments (5-25 µm diameter) are interlaced in a 2x2 or 4x4 twill pattern using automated looms to create a diagonal ribbed texture.
Resin Impregnation:
Fibers are coated with epoxy, polyester, or vinyl ester resin to enhance adhesion and durability.
Layer Consolidation:
Multiple twill layers are stacked and bonded using heat-resistant adhesives.
Curing:
Heat and pressure (120-150°C, 0.5-1.0 MPa) ensure full resin curing and void elimination.

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

Parameter	Details
Material	PAN-based carbon fiber + epoxy/vinyl ester
Weave Pattern	2x2 or 4x4 Twill
Unit Weight	160-400 g/m²
Thickness	0.1-0.6 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-200 GPa
Operating Temp	-60°C to +300°C
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications

Aerospace

Aircraft Components: Reinforces fuselage panels, wings, and engine mounts. The twill weave's flexibility suits contoured surfaces like helicopter rotor blades.

Automotive

Performance Vehicles: Enhances strength of EV chassis and suspension components. Used in Formula 1 car body panels for lightweight durability.

Wind Energy

Turbine Blades: Reinforces leading edges to withstand high wind loads and fatigue. The twill pattern improves stress distribution in large blades.

Marine

Boat Hulls: Corrosion-resistant alternative to steel/aluminum. Used in yacht superstructures for saltwater durability.

Architecture

Lightweight Structures: Reinforces concrete panels and facades for energy-efficient buildings.

Sports Equipment

Bicycle Frames: Lightweight yet durable frames for racing bikes. The twill weave balances stiffness and vibration dampening.

Industrial Machinery

Robotics & Drones: Used in robotic arms and UAV frames for high strength-to-weight ratios.

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carbon fiber cloth,

carbon fiber weave roll,

carbon fiber woven fabric

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Corrosion Resistant Carbon Fiber Twill High Performance Premium Composite Reinforcement

MOQ:	300㎡
Price:	$9.58-$12.68（㎡）
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:

2×2 Twill/4H Satin/5H Satin

Areal Density (g/m²):

Custom-made

Resin Wet-Out Time:

≤20s /≤25s/≤30s

Elongation:

1.5%

Material:

Carbon Fiber

Minimum Order Quantity:

300㎡

Price:

$9.58-$12.68（㎡）

Packaging Details:

Palletize

Delivery Time:

3-7 work days

Payment Terms:

T/T

Supply Ability:

15000㎡/month

Highlight

Corrosion Resistant Carbon Fiber Twill

Corrosion Resistant carbon fiber fabric roll

High Performance Carbon Fiber Twill

Product Description

Carbon Fiber Twill Fabric | Premium Composite Reinforcement For Demanding Applications

Attribute	Value
Thickness	0.5mm
Width	1040mm
Surface Treatment	Silane Sizing
Shelf Life	6 months
Moisture Content	≤ 0.2%
Application	Hand Lay-up, Filament Winding, Compression Molding

Product Introduction

High Tensile Strength: Ranges from 3,000 -5,000 MPa, making it suitable for structural components under heavy stress.
Lightweight: Density as low as 1.5 -2.0 g/cm³, critical for aerospace and automotive industries.
Thermal Stability: Operates effectively up to 300 °C without significant degradation.
Corrosion Resistance: Impervious to acids, alkalis, and moisture, ideal for marine and industrial applications.

Manufacturing Process

Precursor Processing:
Polyacrylonitrile (PAN) fibers undergo stabilization (200-300°C) and carbonization (1,000-3,000°C) to form graphite-like structures.
Weaving:
Carbon filaments (5-25 µm diameter) are interlaced in a 2x2 or 4x4 twill pattern using automated looms to create a diagonal ribbed texture.
Resin Impregnation:
Fibers are coated with epoxy, polyester, or vinyl ester resin to enhance adhesion and durability.
Layer Consolidation:
Multiple twill layers are stacked and bonded using heat-resistant adhesives.
Curing:
Heat and pressure (120-150°C, 0.5-1.0 MPa) ensure full resin curing and void elimination.

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

Parameter	Details
Material	PAN-based carbon fiber + epoxy/vinyl ester
Weave Pattern	2x2 or 4x4 Twill
Unit Weight	160-400 g/m²
Thickness	0.1-0.6 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-200 GPa
Operating Temp	-60°C to +300°C
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications

Aerospace

Aircraft Components: Reinforces fuselage panels, wings, and engine mounts. The twill weave's flexibility suits contoured surfaces like helicopter rotor blades.

Automotive

Performance Vehicles: Enhances strength of EV chassis and suspension components. Used in Formula 1 car body panels for lightweight durability.

Wind Energy

Turbine Blades: Reinforces leading edges to withstand high wind loads and fatigue. The twill pattern improves stress distribution in large blades.

Marine

Boat Hulls: Corrosion-resistant alternative to steel/aluminum. Used in yacht superstructures for saltwater durability.

Architecture

Lightweight Structures: Reinforces concrete panels and facades for energy-efficient buildings.

Sports Equipment

Bicycle Frames: Lightweight yet durable frames for racing bikes. The twill weave balances stiffness and vibration dampening.

Industrial Machinery

Robotics & Drones: Used in robotic arms and UAV frames for high strength-to-weight ratios.

Tags: