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High Durability Woven Roving Fiberglass Lightweight For Automotive Aerospace

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High Durability Woven Roving Fiberglass Lightweight For Automotive Aerospace

MOQ:	2000KGS
Price:	$0.56-$0.85（KG）
Standard Packaging:	Palletize
Delivery Period:	3-7 work days
Payment Method:	T/T
Supply Capacity:	200000KGS/month

Detail Information

Product Description

Ratings & Reviews

Detail Information

Place of Origin

CHINA

Brand Name

WGSC

Certification

ISO9001

Features:

High Strength, Heat Resistance, Chemical Resistance, Etc.

Heat Resistance:

-50 To 260℃

Thickness:

0.2mm-2mm

Width:

≤3200mm

Tensile Strength:

See Table For Details

Combustibles:

0.4-0.8（%）

Highlight:

High Durability Woven Roving Fiberglass

High Durability woven roving mat

Lightweight Woven Roving Fiberglass

Product Description

Glass Woven Roving | Structural Composite Reinforcement for Automotive & Aerospace Solutions

Attribute	Value
Width	1040mm
Fiber Length	50mm
Moisture Content	≤0.2%
Binder Content	5%
Weight	300g/m2
Fiber Type	E-Glass

Product Introduction

Glass Woven Roving is a specialized composite reinforcement material made from continuous glass fibers arranged in a non-woven, parallel structure. Engineered for exceptional strength, durability, and versatility, it is widely used in industries requiring lightweight yet robust solutions.

High Tensile Strength: 3,000-5,000 MPa, outperforming traditional materials like steel in weight-sensitive applications
Chemical Resistance: Resists acids, alkalis, and solvents for harsh environment performance
Thermal Stability: Effective operation up to 400°C without significant degradation
Electrical Insulation: Non-conductive properties ensure safety in electrical applications
Lightweight: Density of 1.5-2.0 g/cm³, critical for aerospace and automotive industries

Manufacturing Process

Raw Material Preparation: High-purity silica sand, limestone, and alumina melted at 1,500-1,600°C
Fiber Formation: Molten glass extruded through platinum bushings into 10-25 µm diameter filaments
Woven Structure: Filaments bundled into roving strands and woven into parallel-laid non-woven mats
Surface Treatment: Coated with vinyl ester or silane-based sizings for enhanced resin compatibility
Quality Control: ISO 9001-certified testing for tensile strength, thickness uniformity, and chemical resistance

Usage Precautions

Handling: Wear PPE (gloves, goggles) to avoid fiber irritation; use sharp tools carefully
Resin Compatibility: Ensure compatibility with epoxy, polyester, or vinyl ester resins
Curing Conditions: Maintain 120-150°C and 0.5-1.0 MPa pressure during curing
Storage: Store in dry, ventilated areas; avoid humidity to prevent delamination

Specifications

Parameter	Details
Material	E-glass or C-glass fibers + vinyl ester sizing
Density	1.5-2.0 g/cm³
Weight	30-50 g/m²
Thickness	0.2-0.5 mm
Tensile Strength	3,000-5,000 MPa
Thermal Stability	Up to 400°C (non-oxidizing)
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications & Case Studies

Aerospace

Aircraft Components: Reinforces fuselage panels and engine mounts for lightweight durability. Case: Boeing 787 Dreamliner uses woven roving in wing structures to reduce weight by 20%.

Automotive

Body Panels: Enhances strength of EV door panels and chassis components. Case: Tesla Model S uses woven roving in battery trays for crash resistance.

Construction

Reinforced Concrete: Improves load-bearing capacity of bridges and high-rises. Case: Shanghai Tower's concrete columns incorporate woven roving for seismic resilience.

Wind Energy

Turbine Blades: Reinforces leading edges to withstand high wind loads. Case: GE Haliade-X offshore wind turbine blades use woven roving for fatigue resistance.

Electronics

EMI Shielding: Enclosures for circuit boards and sensors. Case: Samsung Galaxy S23 Ultra backplate for electromagnetic protection.

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

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Philippines Dec 1.2025

Helpful (5)

I never thought a fabric could transform our boatyard! Switching to WGSC's ±45° biaxial fiberglass (EBX800/225) for our outrigger canoe repairs slashed production costs by 35%. The chopped strand mat layer eliminated delamination issues we’d struggled with for years. Local fishermen rave about the lightweight yet durable hulls – even in saltwater! Your QC team’s detailed inspection reports (with 98.7% tensile strength compliance) gave us peace of mind. Plus, your 3-day delivery from Guangzhou to Manila kept our clients’ vessels sailing on schedule.

Chemical Resistant Eco Friendly Carbon Fiber Cloth Fabric Carbon Fiber Prepreg Roll

United Arab Emirates Nov 14.2025

Helpful (5)

Your T700-24K carbon prepreg transformed our offshore drilling riser clamps. Tested in 85°C seawater with 3.5% salinity, the 5H satin weave maintained 98% tensile strength after 6 months—triple the industry standard. The UAE desert’s 50°C diurnal temperature swings posed no issue thanks to its -0.5ppm/°C CTE. Special shoutout to your Dubai team’s X-Ray Inspection option—we caught a 0.02mm delamination early, saving $120k in rework. Cost-wise, it’s 35% lighter than titanium while hitting ABS-grade fire resistance. A game-changer for Gulf energy infrastructure!

High Performance Fire Resistant Basalt Fiber Roving Continuous Basalt Fiber

United Arab Emirates Nov 1.2025

Helpful (4)

Your basalt roving revolutionized our offshore pipeline insulation. Exposed to 650°C flare stacks, the BF-1200 tex variant maintained structural integrity for 18 months—triple the lifespan of traditional ceramic coatings. The UAE desert’s extreme temperature swings (day/night delta of 50°C) proved no match for its thermal stability. Special kudos to your Dubai team’s JIT delivery: 48-hour turnaround from order to rig-site deployment. Cost-wise, it’s 40% cheaper than imported solutions while meeting ADNOC’s stringent specs. A game-changer for Gulf energy projects

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fiberglass cloth rolls,

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marine fiberglass cloth

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High Durability Woven Roving Fiberglass Lightweight For Automotive Aerospace

MOQ:	2000KGS
Price:	$0.56-$0.85（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

Features:

High Strength, Heat Resistance, Chemical Resistance, Etc.

Heat Resistance:

-50 To 260℃

Thickness:

0.2mm-2mm

Width:

≤3200mm

Tensile Strength:

See Table For Details

Combustibles:

0.4-0.8（%）

Minimum Order Quantity:

2000KGS

Price:

$0.56-$0.85（KG）

Packaging Details:

Palletize

Delivery Time:

3-7 work days

Payment Terms:

T/T

Supply Ability:

200000KGS/month

Highlight

High Durability Woven Roving Fiberglass

High Durability woven roving mat

Lightweight Woven Roving Fiberglass

Product Description

Glass Woven Roving | Structural Composite Reinforcement for Automotive & Aerospace Solutions

Attribute	Value
Width	1040mm
Fiber Length	50mm
Moisture Content	≤0.2%
Binder Content	5%
Weight	300g/m2
Fiber Type	E-Glass

Product Introduction

High Tensile Strength: 3,000-5,000 MPa, outperforming traditional materials like steel in weight-sensitive applications
Chemical Resistance: Resists acids, alkalis, and solvents for harsh environment performance
Thermal Stability: Effective operation up to 400°C without significant degradation
Electrical Insulation: Non-conductive properties ensure safety in electrical applications
Lightweight: Density of 1.5-2.0 g/cm³, critical for aerospace and automotive industries

Manufacturing Process

Raw Material Preparation: High-purity silica sand, limestone, and alumina melted at 1,500-1,600°C
Fiber Formation: Molten glass extruded through platinum bushings into 10-25 µm diameter filaments
Woven Structure: Filaments bundled into roving strands and woven into parallel-laid non-woven mats
Surface Treatment: Coated with vinyl ester or silane-based sizings for enhanced resin compatibility
Quality Control: ISO 9001-certified testing for tensile strength, thickness uniformity, and chemical resistance

Usage Precautions

Handling: Wear PPE (gloves, goggles) to avoid fiber irritation; use sharp tools carefully
Resin Compatibility: Ensure compatibility with epoxy, polyester, or vinyl ester resins
Curing Conditions: Maintain 120-150°C and 0.5-1.0 MPa pressure during curing
Storage: Store in dry, ventilated areas; avoid humidity to prevent delamination

Specifications

Parameter	Details
Material	E-glass or C-glass fibers + vinyl ester sizing
Density	1.5-2.0 g/cm³
Weight	30-50 g/m²
Thickness	0.2-0.5 mm
Tensile Strength	3,000-5,000 MPa
Thermal Stability	Up to 400°C (non-oxidizing)
Surface Resistivity	>10¹² Ω (electrical insulation)
Certifications	ISO 9001, REACH, RoHS

Applications & Case Studies

Aerospace

Aircraft Components: Reinforces fuselage panels and engine mounts for lightweight durability. Case: Boeing 787 Dreamliner uses woven roving in wing structures to reduce weight by 20%.

Automotive

Body Panels: Enhances strength of EV door panels and chassis components. Case: Tesla Model S uses woven roving in battery trays for crash resistance.

Construction

Reinforced Concrete: Improves load-bearing capacity of bridges and high-rises. Case: Shanghai Tower's concrete columns incorporate woven roving for seismic resilience.

Wind Energy

Turbine Blades: Reinforces leading edges to withstand high wind loads. Case: GE Haliade-X offshore wind turbine blades use woven roving for fatigue resistance.

Electronics

EMI Shielding: Enclosures for circuit boards and sensors. Case: Samsung Galaxy S23 Ultra backplate for electromagnetic protection.

Tags: