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High Performance Fiberglass Fabric Sheets Chemical Resistant High Strength

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High Performance Fiberglass Fabric Sheets Chemical Resistant High Strength

MOQ:	2000KGS
Price:	$0.70-$0.99（KG）
Standard Packaging:	Palletize
Delivery Period:	3-7 work days
Payment Method:	T/T
Supply Capacity:	200000KGS/month

Detail Information

Product Description

Detail Information

Place of Origin

CHINA

Brand Name

WGSC

Certification

ISO9001

Compatible Resin:

UP/VE/EP

Resistance:

Corrosion And Chemical Resistance

Width:

≤2600mm

Strength:

High

Weight:

400-1200(g/m²)

Tensile Strength:

200-600(N/50mm)

Highlight:

High Performance Fiberglass Fabric Sheets

High Performance fiberglass cloth rolls

Chemical Resistant Fiberglass Fabric Sheets

Product Description

Glass Fiber Axial Fabrics | High Performance Composite Reinforcement

Attribute	Value
Width	100-3200 mm
Thickness	0.5-3 mm
Heat Resistance	Up to 300°C
Alkali Content	≤ 0.8%
Acid Content	≤ 0.5%
Fiber Type	E-Glass

Product Introduction

Glass Fiber Axial Fabrics are specialized composite reinforcement materials engineered with unidirectional or multi-axial fiber alignment to deliver exceptional strength, durability, and design flexibility. These fabrics are critical in applications requiring high tensile strength, thermal stability, and lightweight solutions.

Unidirectional/Multi-Axial Alignment: Fibers oriented in 0°, ±45°, or 90° directions for optimized directional strength.
High Tensile Strength: Ranges from 3,000-5,000 MPa, outperforming traditional woven fabrics in primary stress directions.
Lightweight: Density as low as 1.5-2.0 g/cm³, ideal for aerospace and automotive industries.
Thermal Resistance: Withstands temperatures up to 600°C without significant degradation.
Chemical Stability: Resists acids, alkalis, and solvents, ensuring durability in harsh environments.

Manufacturing Process

Fiber Preparation: E-glass or S-glass filaments (6-25 µm diameter) are drawn from molten glass at 1,500-1,600°C.
Fiber Alignment: Filaments are aligned unidirectionally or in multi-axial patterns (0°, ±45°, 90°) using automated spreading machines.
Stitch Bonding: Layers are stitched together with polyester or nylon threads to maintain fiber integrity and prevent displacement.
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, fiber orientation accuracy, and thickness uniformity.

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., E-glass for general use, S-glass for high-strength) 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	E-glass, S-glass, or hybrid (glass/carbon)
Fiber Orientation	0°, ±45°, 90° (multi-axial options)
Weight	200-1,200 g/m²
Thickness	0.2-0.8 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-110 GPa
Operating Temp	-60°C to +600°C (short-term: 800°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 multi-axial fabrics 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 axial fabrics 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 multi-axial fabrics for extended lifespan.

D. Marine

Boat Hulls: Corrosion-resistant alternative to steel/aluminum.

Case: Benetti superyachts employ axial fabrics 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 E-glass axial fabrics for leak-free service over 25 years.

F. Sports & Safety

Protective Gear: Helmets and automotive safety belts.

Tags:

fiberglass cloth rolls,

lightweight fiberglass cloth,

marine fiberglass cloth

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High Performance Fiberglass Fabric Sheets Chemical Resistant High Strength

MOQ:	2000KGS
Price:	$0.70-$0.99（KG）
Standard Packaging:	Palletize
Delivery Period:	3-7 work days
Payment Method:	T/T
Supply Capacity:	200000KGS/month

Detail Information

Product Description

Detail Information

Place of Origin

CHINA

Brand Name

WGSC

Certification

ISO9001

Compatible Resin:

UP/VE/EP

Resistance:

Corrosion And Chemical Resistance

Width:

≤2600mm

Strength:

High

Weight:

400-1200(g/m²)

Tensile Strength:

200-600(N/50mm)

Minimum Order Quantity:

2000KGS

Price:

$0.70-$0.99（KG）

Packaging Details:

Palletize

Delivery Time:

3-7 work days

Payment Terms:

T/T

Supply Ability:

200000KGS/month

Highlight

High Performance Fiberglass Fabric Sheets

High Performance fiberglass cloth rolls

Chemical Resistant Fiberglass Fabric Sheets

Product Description

Glass Fiber Axial Fabrics | High Performance Composite Reinforcement

Attribute	Value
Width	100-3200 mm
Thickness	0.5-3 mm
Heat Resistance	Up to 300°C
Alkali Content	≤ 0.8%
Acid Content	≤ 0.5%
Fiber Type	E-Glass

Product Introduction

Unidirectional/Multi-Axial Alignment: Fibers oriented in 0°, ±45°, or 90° directions for optimized directional strength.
High Tensile Strength: Ranges from 3,000-5,000 MPa, outperforming traditional woven fabrics in primary stress directions.
Lightweight: Density as low as 1.5-2.0 g/cm³, ideal for aerospace and automotive industries.
Thermal Resistance: Withstands temperatures up to 600°C without significant degradation.
Chemical Stability: Resists acids, alkalis, and solvents, ensuring durability in harsh environments.

Manufacturing Process

Fiber Preparation: E-glass or S-glass filaments (6-25 µm diameter) are drawn from molten glass at 1,500-1,600°C.
Fiber Alignment: Filaments are aligned unidirectionally or in multi-axial patterns (0°, ±45°, 90°) using automated spreading machines.
Stitch Bonding: Layers are stitched together with polyester or nylon threads to maintain fiber integrity and prevent displacement.
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, fiber orientation accuracy, and thickness uniformity.

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., E-glass for general use, S-glass for high-strength) 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	E-glass, S-glass, or hybrid (glass/carbon)
Fiber Orientation	0°, ±45°, 90° (multi-axial options)
Weight	200-1,200 g/m²
Thickness	0.2-0.8 mm
Tensile Strength	3,000-5,000 MPa
Elastic Modulus	70-110 GPa
Operating Temp	-60°C to +600°C (short-term: 800°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 multi-axial fabrics 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 axial fabrics 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 multi-axial fabrics for extended lifespan.

D. Marine

Boat Hulls: Corrosion-resistant alternative to steel/aluminum.

Case: Benetti superyachts employ axial fabrics 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 E-glass axial fabrics for leak-free service over 25 years.

F. Sports & Safety

Protective Gear: Helmets and automotive safety belts.

Tags: