Product Categories

RTM Auxiliary Materials

[3]

Contact Now

Qingdao Wanguo Sanchuan Fiber Technology Co., Ltd

Visit Website

City:qingdao

Province/State:shandong

Country/Region:china

Contact Person:MrLiu

View Contact Details

Contact Now

China High Strength Carbon Fiber Fabric Aerospace Grade Composite Solutions wholesale

High Strength Carbon Fiber Fabric Aerospace Grade Composite Solutions

Name: High Strength Carbon Fiber Fabric Aerospace Grade Composite Solutions
Brand: WGSC
Price: 9.58 USD

Ask Latest Price

Video Channel

Place of Origin :CHINA

Brand Name :WGSC

Certification :ISO9001

MOQ :300㎡

Price :$9.58-$12.68（㎡）

Delivery Time :3-7 work days

Payment Terms :T/T

Supply Ability :15000㎡/month

Packaging Details :Palletize

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

Contact Now

Add to Cart

View Product Description

High-Strength Carbon Fiber Twill Fabric | Aerospace-Grade Composite Solutions

Attribute	Value
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

Product Overview

Carbon Fiber Twill Fabric is a high-performance composite substrate engineered from high-modulus carbon fiber yarns through precision weaving. Its unique 2*2 or 3*3 twill structure enhances tensile strength and shear resistance while maintaining lightweight properties, making it widely used in aerospace, new energy vehicles, high-end sports equipment, and industrial machinery. This product supports customization of parameters to meet diverse needs, from prototype design to mass production.

Core Parameters & Technical Specifications

Parameter Category	Detailed Specifications	Applicable Scenarios
Base Material Type	T300/T700/T800 carbon fiber (Toray Japan original yarn)	Aircraft structural components, race car bodies, drone frames
Fiber Specification	3K/6K/12K single yarn (single yarn diameter: 5-7μm, carbon content ≥95%)	High-strength load-bearing parts, precision instrument casings
Weaving Process	22 twill (standard) / 33 twill (high-density)	Impact-resistant parts (e.g., anti-collision beams), decorative panels
Area Weight	200-680 g/m² (±5% tolerance)	Low weight for lightweight demands; high weight for structural reinforcement
Width Range	50-150 cm (customizable up to 200 cm)	Seamless splicing for large components (e.g., wind turbine blades)
Thickness	0.12-0.6 mm (density gradient control technology)	Aircraft skins, high-end automotive interior laminates
Temperature Resistance	-60°C to +300°C (short-term resistance up to 500°C thermal shock)	Engine components, high-temperature industrial equipment
Certification Standards	ISO 9001/14001, EN 927-5, NASA low-smoke and non-toxic certification	Spacecraft, medical devices, public transport

Six Core Advantages

Exceptional Mechanical Properties
5x higher specific strength than steel, 3x higher specific modulus than aluminum; tensile strength up to 3,000-4,500 MPa. The twill structure distributes stress more evenly, extending fatigue life by 40% compared to plain weave fabrics.
Lightweight Design
Density ranges from 1.45-1.65 g/cm³, reducing weight by 50-70% compared to traditional metals, significantly improving fuel efficiency and range.
Strong Environmental Resistance
Resistant to acids, alkalis, solvents, and UV aging, suitable for long-term use in marine or chemical environments.
Excellent Process Compatibility
Supports multiple molding processes, including vacuum bagging, autoclave curing, and resin transfer molding (RTM), compatible with complex curved surfaces.
Diverse Surface Treatments
Options include matte/high-gloss UV coatings, conductive plating, and flame retardant treatments to meet both aesthetic and functional needs.
Rapid Delivery System
Standard orders ship in 7 days; small-batch samples (minimum 50m²) are accepted; expedited orders available within 3 days.

Typical Application Scenarios

Aerospace

Aircraft wing skins, satellite brackets, rocket fuel tank reinforcements

Case Study: A certain drone model reduced weight by 32% and extended range by 18% using this product.

New Energy Vehicles

Battery box casings, motor drive shafts, carbon fiber-epoxy body panels

Data: A sports car brand improved torsional rigidity by 26% and reduced vehicle energy consumption by 15% after adoption.

Industrial Equipment

Wind turbine blade caps, precision machine tool spindles, semiconductor equipment vibration-damping bases

Feature: Maintains over 90% mechanical performance at 80°C high temperatures.

Sports Equipment

F1 steering wheel frames, golf club shafts, bicycle frames

Innovation: Post-resin composite, impact absorption rate increased by 35%, meeting international safety standards.

Product Selection Guide

Weave Type Comparison

Type	Characteristics	Recommended Uses
2*2 Twill	Balances strength and flexibility; easy to cut and form	General structural parts, consumer electronics
3*3 Twill	Higher yarn density; tear resistance increased by 20%	Critical load-bearing areas, high-vibration environments

Thickness Selection Advice

0.12 -0.2 mm: Decorative panels, electronic device casings
0.3 -0.5 mm: Automotive body components, drone frames
0.6 mm+: Ballistic material substrates, heavy-duty anti-wear layers

High Strength Carbon Fiber Fabric Aerospace Grade Composite Solutions

Inquiry Cart 0