Fiberglass Fabric Market Size, Share, Growth, and Industry Analysis, By Type (E-Glass, Other), By Application (Wind Energy, Transportation, Electrical & Electronics, Construction, Marine, Aerospace & Defens), and Regional Insights and Forecast to 2034

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FIBERGLASS FABRIC MARKET OVERVIEW

The global Fiberglass fabric market size was USD 10.03 billion in 2025 and is projected to touch USD 15.27 billion by 2034, exhibiting a CAGR of 4.7% during the forecast period.

Fiberglass fabric market is constituted of the woven materials, which are produced out of glass fibers, and are of great strength, durability and are resistant to heat. The uses of these fabrics are spread in the aerospace, automotive, marine, wind energy, and construction industries as they have uses in industries that need lightweight reinforcements and high-level mechanical performance. The growth in the market is prompted by the growing demand of high performance composite materials in the development of high performance, and infrastructural growth. The fiberglass fabrics are appreciated in terms of dimensional stability, corrosion resistance and also as cost effective than carbon or aramid fibers. Their application in electric vehicles, wind turbine blades and in green buildings are also driven by the shift towards sustainable, lightweight and energy efficient solutions. Besides, there is some development of textile technology, resin compatibility, and automated production processes that enhanced the quality of products and variety of their applications. All in all, the market is still progressing towards the modernization of the global industry, as well as the increased demand of durable, multifunctional composite materials.

COVID-19 IMPACT

Fiberglass Fabric Industry Had a Negative Effect Due to Disrupting International Deliver Chains

The global COVID-19 pandemic has been unprecedented and staggering, with the market experiencing lower-than-anticipated demand across all regions compared to pre-pandemic levels. The sudden market growth reflected by the rise in CAGR is attributable to the market’s growth and returning to pre-pandemic levels.

The fiberglass fabric market growth has been adversely affected by the COVID-19 pandemic because of the global supply chain disruptions, factory closures, and low industrial workload. Construction, automotive manufacturing, and aerospace manufacturing are major users of fiberglass fabrics similar to the end-users who were delayed due to lockdowns and restrictions. The lack of raw materials, transportation sluggishness and labour constraints also added to the burdens, and caused imbalances in supply and demand. There was also the problem of postponed projects in the marine and wind energy industry and this slowed down the general market flow. Furthermore, the consumer expenditure on cars and houses decreased which decreased the demand on the composite materials. The manufacturing industry reliant on exports lost revenue owing to the limited international trade. Despite the fact that the market has since recovered at a slow pace, the pandemic has shown the weak points in the global supply chains and the necessity to create the production on a local scale. To make sure that companies are resilient to future global disruptions, companies have since implemented digital monitoring, flexibility in logistic, and sustainable-driven strategies to enable the market to stabilize and look forward to long-term healing.

LATEST TRENDS

Integration of AI and Edge Computing Enhances BAN Efficiency Helps in Market Expansion

Another major trend that is influencing the fiberglass fabric market is that the fiberglass fabric is becoming more widely used in the wind energy sector. The move by the world to renewable energy sources has increased the demand of fiberglass fabrics in making light weight and high strength wind turbine blades. These fabrics offer high fatigue and thermal as well as corrosion protection which makes them the best in large turbine designs which are more efficient in energy. The manufactures are investing in high-performance woven and multiaxial fiberglass fabrics to suit the mechanical needs of future generation turbines. In addition, the governments of other countries are also promoting the wind power programs with incentives and investments in infrastructure, which promotes market growth. Recyclability of the material and its cost effectiveness over carbon fiber also simulates the trend. On-going developments on resin systems and fabric architecture are enhancing resilience and life span of blades and are cementing the fiberglass fabric as part of the vital developments in the global renewable energy scene.

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FIBERGLASS FABRIC MARKET SEGMENTATION

By Type

Based on Type, the global market can be categorized into ‎ E-glass, other

• E-glass: E-glass fiberglass fabric is the most widely used type, known for its excellent electrical insulation, lightweight, and cost-effectiveness, making it ideal for composite structures and industrial applications.

• Other: This category includes S-glass and specialty glass fabrics, offering higher strength, heat resistance, and durability for demanding applications in aerospace, defense, and high-performance engineering environments.

By Application

Based on application, the global market can be categorized Wind energy, transportation, electrical & electronics, construction, marine, aerospace & defens.

• Wind Energy: Fiberglass fabrics are used in wind turbine blades for their strength, lightweight properties, and fatigue resistance, ensuring long-lasting and efficient energy generation.

• Transportation: Used in vehicles for lightweight body parts and panels, fiberglass fabrics enhance fuel efficiency and safety by providing high strength-to-weight performance.

• Electrical & Electronics: Employed as insulation and reinforcement materials in circuit boards and electrical housings, offering heat resistance and dielectric properties.

• Construction: Applied in concrete reinforcement, insulation panels, and roofing for added strength, corrosion resistance, and durability.

• Marine: Used in boat hulls and ship components due to water resistance and mechanical strength, enhancing vessel longevity and performance.

• Aerospace & Defense: Provides lightweight, high-strength reinforcement in aircraft and defense components, improving efficiency, impact resistance, and safety.

MARKET DYNAMICS

Market dynamics include driving and restraining factors, opportunities and challenges stating the market conditions.

Driving Factor

Rising Adoption of Wearable Health Devices Drives the Growth

There is increasing use of fiberglass fabrics in the automotive and aerospace industries in lightweighting. The necessity to use more fuel-efficient materials and lower emissions makes the manufacturers turn to the use of composite materials which provide the extra power without being weighty. Fiberglass fabrics are suitable in creation of structural integrity in vehicle bodies, interiors, and aircraft components at low costs. Their flexibility in shaping and compatibility with different resins make them to be perfect in making durable and high-performance parts.

Growth in Telemedicine and Remote Patient Monitoring Drives the Market

The increasing construction and infrastructure development particularly in emerging economies is another major factor contributing to the demand of fiberglass fabrics. They are applicable in the reinforcement of concrete, roofing, wall insulation and waterproofing because they withstand corrosion and have tensile strength. Since governments are focusing on sustainable and energy-saving infrastructure, fiberglass fabrics have a thermal shield effect and longevity. Their involvement in the smart city projects and green buildings also contribute to the expansion of the market in residential and commercial purposes.

Restraining Factor

Data Privacy and Security Concerns Restrains the Market Growth

The cost of production and processing of the fine quality glass fibers used in the production of the fiber-based cloth is one of the major inhibiting forces in the fiberglass fabric market. It is an energy-consuming melting, fiber drawing and weaving process that adds on operational costs. Also, specialized equipment and professional labor is needed to achieve the consistency of fiber quality and strength and increase the cost of production even more. It is also financially unpredictable due to the reliance on fluctuating prices of the raw materials, especially silica and other glass forming substances. Small and medium enterprises are in a dilemma of whether to embrace advanced manufacturing technologies since they have limited budgets to limit their market competitiveness. In addition, industries that are driven by cost will at times use alternative fabrics that are less structural such as polyester and nylon when doing non-structural work. These are the economic limitations that may impair the uptake of the fiberglass fabrics especially in markets where cost is an issue of concern. The manufacturers are thus concentrating on the streamlining of production process, material efficiency and investigating on the concept of recycling-based production to reduce pressure on cost and increase overall profitability.

Expansion into Sports and Fitness Applications Efficiency in Market Expansion

Opportunity

The trend towards electric cars (EVs) is an opportunity to the fiberglass cloth market. Fiberglass fabrics provide the best solution to the automakers because of their strength to weight ratio and heat resistance as they focus on lightweight materials to make the batteries work longer and more efficiently. These types of fabrics are being implemented in EV body panels, battery housing, and structural reinforcements. Also, fiberglass lowers electromagnetic interference (EMI), which increases electronic efficiency in EV systems. Government incentives and emission requirements promote the use of environmentally friendly solutions to mobility, adding to the growing pace of market expansion.

Besides, fiberglass fabrics are affordable as opposed to carbon fiber, the use of which can be done in the production of mass EVs. The use of innovations in hybrid fabric technology in which fiberglass is combined with natural fibers or synthetic fibers is also improving performance characteristics. With the increased scale of EV manufacturing in the world, fiberglass fabrics will have a crucial role to play in the realization of the goals of safety, durability, and energy optimalization in future cars.

Interoperability and Standardization Issues Pose Challenge to the Market

Challenge

One of the issues that the fiberglass fabric market has experienced is the environmental issue with respect to waste management and recycling. Fiberglass is non-biodegradable and it is not easily recyclable because it has a composite structure whereby it is made by mixing glass fibers with resins or coats. Inappropriate disposal may cause landfill and environmental pollution. Sustainability is also minimal due to inefficient recycle methods of composite materials.

Moreover, governmental pressure in developed markets is pushing producers to come up with environmentally friendly substitutes or a circular economy. Recycling of fiberglass is however complicated and may need thermal or chemical treatment which is expensive and energy consuming. This is causing research to be conducted into bio-based resin and recyclable fiberglass resin. Players in the industry are also seeking mechanical reprocessing and closed loop to reduce wastage.

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FIBERGLASS FABRIC REGIONAL INSIGHTS

• North America

North America represents a significant fiberglass fabric market share, driven by robust demand from aerospace, defense, automotive, and construction sectors. The region’s strong focus on lightweight materials and technological innovation supports widespread adoption in composite manufacturing. The United States fiberglass fabric market, in particular, leads in research and production, hosting major aerospace companies and renewable energy projects utilizing fiberglass in turbine blades and structural components. Government initiatives promoting clean energy and electric vehicles are further boosting market expansion. The presence of advanced manufacturing facilities and established raw material suppliers enhances regional competitiveness. Canada and Mexico are also witnessing growth due to expanding automotive and construction activities. Additionally, the increasing use of fiberglass in infrastructure reinforcement and thermal insulation aligns with sustainability targets. Overall, the North American fiberglass fabric market continues to thrive, supported by a combination of industrial modernization, innovation, and eco-conscious material adoption.

• Asia

Asia is one of the emerging markets in fiberglass fabrics, with the high pace of industrialization, infrastructure, and the growing automobile manufacturing businesses. China, India, Japan and South Korea are also major contributors with the government policies on renewable energy and construction development being favorable. The rising need to have light and economical materials in manufacturing industries increases the use of fiberglass fabrics. In China, industrial modernization and mass wind energy plants are the new movers, whereas in India there is a huge potential in the construction sector. Japan and South Korea deal with hi-tech composite in the automotive and electronic industry. Moreover, the increasing investments in the project of smart city and sustainable housing also bring more demand to the market. The low cost of production and availability of raw materials make the local manufacturers competitive. The increasing interest towards sustainability, as well as the well-established manufacturing power in the region, makes Asia a strategic location in expanding the market in the future in terms of fiberglass fabrics.

• Europe

The fiberglass fabric market in Europe is also expanding, with the high regulations of environmental protection and the emphasis of sustainable production in the region. Germany, France, and the U.K. are some of the major adopters because of their developed automotive, aerospace, and wind energy sectors. The focus on minimizing carbon emission adopted by the European Union has imposed the introduction of lightweight composites in the transportation and renewable energy programs. Also, the fiberglass materials are becoming popular in the construction of green buildings because of their thermal insulating and corrosion resistant properties. To achieve sustainability targets in the region such as high-performance, recyclable fiberglass composites, manufacturers are investing in them. The close proximity of major automotive OEMs and wind turbine manufacturers increases the demand of the products. There are also collaborative research works and EU funding that stimulate innovation in fiberglass technologies. The energy efficiency and carbon neutrality being pursued in Europe will also report towards the further development of the market in industrial and infrastructural applications.

KEY INDUSTRY PLAYERS

Key Industry Players Shaping the Market Through Innovation and Market Expansion

The major participants of the fiberglass fabric market are putting more emphasis on alliances and cooperations to enhance their positions in the market, as well as develop and grow the technological potential. Strategic alliances help firms to improve product portfolio and research and development and expand to new regional markets. The collaboration with the composite manufacturers, construction companies, and renewable energy developers can result in the incorporation of fabrics based on fiberglass into various industrial processes. Another reason why companies are entering into joint ventures is aimed at optimization of supply chains, enhancement of material performance, and achievement of sustainability objectives. Innovation is increasing in the compatibility of resins and processing effectiveness because of collaborations between resin suppliers and end-use industries. In addition, acquisitions and mergers are also being used to acquire knowledge and to increase production capacities. These strategic projects do not only bring about innovation but also enable the players to adapt to the needs of the market, which may be dynamic in such sectors as wind energy, aerospace, and the automotive manufacturing industry, and that gives them long-term competitive advantage.

List Of Top Fiberglass Fabric Companies

• Owens Corning (U.S.)
• Gurit (Switzerland)
• Jushi Group (China)
• Chomarat Textile Industries (France)

KEY INDUSTRY DEVELOPMENTS

November 2024:  An industrial growth in the fiberglass fabric sector is the introduction of the multiaxial fiberglass fabrics that will be used to improve the mechanical performance of the composite structures. The fabrics are engineered to have fibers in various orientations whose tensile strength, stiffness and impact resistance are high than the traditional woven fabrics. They are finding more application in the aerospace, wind energy and marine sector where high structural integrity is required. Automated production technologies and accuracy in stitching are among technologies that manufacturers are incorporating in order to enhance uniformity and lessen wastage. Also, novel resin infusion methods are used, which makes the adhesion and durability better. This technology is in favour of lightweight composite production and it does not compromise on cost effectiveness and performance stability. The ever-increasing need to use high-performance composite materials in contemporary engineering and renewable industry renders the process of multiaxial fiberglass fabrics as a fundamental innovation. The innovation is likely to affect future design and manufacturing standards across several industries across the world.

REPORT COVERAGE

The fiberglass fabric market is also experiencing good growth potential, as the industrial use of the fabrics and technological advances are increasing. Its popularity in many sectors including automotive, aerospace, construction and renewable energy industry underscores its versatility and performance benefits. Despite the temporary downfall of the sector at the beginning of the COVID-19 pandemic, the industry has been in the recovery with the progress in production efficiency, the rise in sustainability, and the growth of demand in lightweight materials. High costs of production and a problem with waste disposal have been faced but are being overcome by material innovation and recycling. The future prognosis is promising, and the usage increases on electric vehicles, wind turbines, and green building. Manufacturers are utilizing strategic alliances, research and development relationships, and international growth to consolidate their competitive positioning. With the current focus on durability, efficiency, and environmental responsibility as industries across the globe attempt to develop strategies to meet the demands and expectations of the numerous customers, fiberglass fabrics are set to continue playing an essential role in the development of the sophisticated material technologies.