Glass Fibre Veil Market Industry Forecast: Revenue & Share Insights 2033

 

Glass Fibre Veil Market Overview

The global Glass Fibre Veil market is currently valued at approximately USD 6.2 billion (2023), and is projected to grow to around USD 9.9 billion by 2032, reflecting a robust compound annual growth rate (CAGR) of roughly 5.3 % between 2025 and 2033. Other estimates place the CAGR between 4.8 % and 7.2 % depending on region and methodology, with one conservative forecast estimating a rise from USD 250 million in 2024 to USD 450 million by 2033 at a 7.2 % CAGR.

Key growth drivers include increasing demand for lighter, higher-strength composites across industries such as automotive, aerospace, construction, marine, and wind energy. Glass fibre veils enhance mechanical properties, corrosion resistance, surface finish, insulation, and durability, aligning with global trends toward sustainability and lightweighting. Technological advancements—such as fine fibre processes and wet-lay methods—and innovations in composite manufacturing also support market expansion.

Market size and value vary by segmentation and source but consensus projects steady growth across the next 5–10 years, driven by industry tailwinds like infrastructure projects, renewable-energy expansion, and regulatory frameworks (e.g., Europe’s Green Deal) promoting advanced materials.

Glass Fibre Veil Market Segmentation

1. By Production Process

Wet‑laid (Wet netting) process: Fine fibres are dispersed in water and laid into a thin, uniform veil before drying. This produces fine, consistent fabrics ideal for high-strength and surface applications. Widely used in roofing, plasterboard facing, and electronic substrates. Wet‑laid is favored for its high quality and adaptability, representing the largest share in many markets.

Dry‑laid (Dry netting) process: Fibres are mechanically spread and bound with adhesives. Suitable for thicker, more rugged applications like marine interiors and durable parts. Less precise than wet‑laid, but lower cost and flexible for different product thicknesses.

2. By Application Sector

Roofing materials: Glass fibre veils reinforce roofing membranes to improve strength, UV resistance, weather durability. With global construction booms, especially in Asia and MEA, roofing remains a leading segment.

Plasterboard & wallboard facings: Veils act as reinforcing layers in gypsum or cement boards, improving tensile strength and reducing cracking—critical in high-rise and modern construction.

Automotive components: Used in composite body parts, under‑the‑hood components, interior panels to reduce weight and enhance crash performance. Growing demand in EVs and light‑weight vehicles boosts this area.

Electronics & insulation: Thin veils serve as substrates or reinforcements in PCBs, thermal/electrical insulation components—they benefit from veils' dielectric and heat‑resistant properties.

3. By Resin Compatibility

Thermoset resin veils: Compatible with polyester, epoxy, vinyl ester systems. Widely used in structural composites (e.g., marine hulls, wind turbine blades). Provide excellent strength and surface finish.

Thermoplastic resin veils: Designed to integrate with nylon, PP, PE composites. Gaining popularity in automotive and consumer goods due to recycling and fast processing advantages.

4. By End-Use Industry

Construction & infrastructure: Includes roofing, facings, insulation boards, waterproofing films. High demand from green building initiatives and infrastructure programs.

Automotive & transport: Covers EV platforms, panels, structural components, interiors. Continuous push for lightweight composites drives uptake.

Aerospace & defense: Specialty veils for cabin interiors, radomes, structural skins. High performance and certification standards apply.

Marine & wind energy: Hull facings, deck liners, wind turbine blade cores. Corrosion and fatigue resistance essential for these long‑lifecycle sectors.

Emerging Technologies, Innovations & Collaborations

Several noteworthy developments are shaping the future of glass fibre veils:

• Fine-diameter and micro‑fibre veils: Manufacturers are refining wet-lay processes to produce ultra-fine fibres (
• Surface-treated veils: Hydrophobic and oleophobic coatings facilitate resin wetting and adhesion, reducing delamination and enhancing composite durability in harsh environments.
• Hybrid veil composites: Blending glass fibres with carbon or aramid fibres produces hybrid veils that balance weight, stiffness, and surface quality for aerospace and high-end automotive parts.
• Thermoplastic-ready veils: Increasing use of TPU, PP, PA-compatible veils enables recyclable composite systems—aligned with circular‑economy goals.
• Functional veils: Integrated with UV stabilizers, flame-retardants, or conductive additives, veils can contribute to multi-functional composite skins (e.g., EMI shielding, fire-rated facade panels).

Collaborative ventures: Glass fibre producers, resin suppliers, equipment manufacturers and end-users form partnerships to co-develop applications. For example, glass fibre firms team with wind‑blade makers to optimize veil structures for fatigue resistance. Resin companies and veil producers collaborate on thermoplastic‑compatible veils. Additionally, universities and research institutes are advancing veil production methods and composite interfaces via joint projects funded by infrastructure and sustainability grants.

Overall, these innovations are enhancing veil performance, opening new applications (e.g., next‑gen EV battery enclosures, sustainable building facades), and enabling entry into premium composite sectors.

Key Players in the Glass Fibre Veil Market

• Johns Manville – Offers a range of wet- and dry-laid glass veils for construction, wallboard, roofing, and industrial composites. Invests heavily in surface treatments and production scale‑up.
• Owens Corning – Major provider of glass veil used in roofing and insulation facings. Known for consistency and distribution strength in North America and Europe.
• Saint‑Gobain (Isover, CertainTeed) – Produces glass matting and veil for insulation boards, building facades, and specialty composites; strong in European markets.
• AGC Inc. – Japanese firm supplying precision wet‑laid veils for electronics boards, thermal insulation, and industrial filtration under fine‑fibre divisions.
• PPG Industries – Offers glass veil for automotive and aerospace composites; has collaborated with resin firms to produce hybrid and surface-engineered fabrics.
• Nippon Electric Glass – Focuses on high-grade veil for electronics and lightweight composite skins in aerospace.
• China Jushi & Taishan Fiberglass – Fast-growing Chinese producers scaling wet‑laid veil capacity for domestic and export markets, benefiting from renewable energy infrastructure investment.

Market Obstacles & Potential Solutions

1. Raw material price volatility

Glass fibre and resin cost fluctuations impact profit margins. Solution: Long-term procurement contracts, vertical integration, hedging strategies, and transition to recycled or alternative glass sources.

2. Supply chain disruptions

Logistics bottlenecks, energy supply instability, and geopolitical tensions can interrupt production. Solution: Diversified sourcing across regions, on‑shore manufacturing footprint, and buffer inventory strategies.

3. Pricing pressure & competition

Overcapacity, especially in low-cost countries, drives veil prices down. Solutions: Focus on higher‑value-added veils (surface-treated, hybrid, thermoplastic-ready), build brand partnerships, provide technical support and certification services.

4. Regulatory & sustainability demands

Increasing regulations on REACH, VOCs, fire performance, recycling compliance. Solution: Invest in eco‑friendly coatings, develop recyclable veil‑resin systems, seek eco‑certifications, and promote LCA data to customers.

5. Technical barriers for high‑end sectors

Aerospace and EV require tight tolerances, certification, traceability. Solution: Adopt ISO/TS standards, advanced QC systems, pilot co-development programs with OEMs.

Future Outlook

The Glass Fibre Veil market is positioned for steady expansion in the coming decade, driven by:

• Automotive lightweighting: As EV penetration grows, demand for composite components and thermoplastic-compatible veils will escalate.
• Renewable energy build-out: Wind turbine blade production continues to drive veil demand, especially in Asia and Latin America.
• Green building and infrastructure: Sustainable facings, insulation boards, and roofing veils will benefit from global energy-efficiency mandates.
• Advanced material adoption: Hybrid veils, functional additives, and precision wet‑laid systems will open aerospace, electronics, and defense segments.
• Geographic growth: Asia‑Pacific is the fastest-growing region (~8 % CAGR), while Europe and North America grow at 5–6 % annually. Latin America and MEA follow at 5–6 % rates.

New opportunities exist in developing veil-reinforced battery casings, façade materials, and electrical insulation substrates. Overall, the interplay of sustainability, lightweighting and composite innovation suggests a dynamic yet sophisticated growth path.

Frequently Asked Questions (FAQs)

1. What is a glass fibre veil and how does it differ from standard glass mat?

A glass fibre veil is a fine‑fiber, non‑woven fabric typically <10–50 g/m², used for surface reinforcement and finish. In contrast, glass mat (chopped strand mat) is thicker (200–400 g/m²) and used for bulk reinforcement.

2. Which industries use glass fibre veils the most?

Primary industries: roofing and wallboard construction, automotive composites (body parts and interiors), wind energy (turbine blades), electronics insulation, and marine components.

3. What is pushing veil market growth in Asia?

Rapid industrialization, large-scale infrastructure projects, wind‑power expansion, EV production, and government initiatives (e.g., “Made in China 2025”) are accelerating foil adoption in APAC.

4. Are glass fibre veils recyclable or sustainable?

Yes. Thermoplastic-compatible veils enable composite recycling. Additionally, manufacturers are developing bio‑based coatings, low‑VOC products, and supplying LCA data to support green certifications.

5. What technical developments are reshaping veil performance?

Micro‑fine fibres, hybrid material architectures (glass‑carbon/aramid blends), surface coating technologies for enhanced durability or functionality, and precision wet‑laid systems that improve composite performance.

Conclusion

The Glass Fibre Veil market is undergoing a period of sustained, innovation-led growth. With a current valuation between USD 250 million to USD 6 billion+—depending on how you define the category—it is on track to expand by 5–7 % annually through 2030. Key drivers include lightweighting in automotive, wind‑energy infrastructure, green building, and evolving composite technologies. Leading players are investing in fine‑fibre processes, thermoplastic readiness, and functional coatings. Although challenges like material costs, competition, and regulation persist, proactive strategies—such as vertical integration, product differentiation, and quality compliance—provide a clear roadmap forward. The future landscape promises increased technical sophistication, deeper sector penetration, and stronger alignment with sustainability trends.