China Glass Fiber Reinforced Plastic Composite Market Size, Share, Trends and Forecasts 2032

Key Findings

• The China Glass Fiber Reinforced Plastic (GFRP) Composite Market is expanding steadily due to rising demand for lightweight, corrosion-resistant, and high-strength materials.
• GFRP composites are widely used across construction, transportation, wind energy, and industrial equipment sectors.
• Infrastructure modernization and corrosion-resistant replacement materials are key adoption drivers.
• Wind turbine blade manufacturing remains one of the largest volume applications.
• Demand is increasing for pultruded and molded GFRP profiles in structural applications.
• Automotive lightweighting initiatives are supporting composite penetration.
• Manufacturing process innovations are improving consistency and reducing cycle times.
• Recycling and end-of-life handling remain ongoing industry challenges.

China Glass Fiber Reinforced Plastic Composite Market Size and Forecast

The China Glass Fiber Reinforced Plastic Composite Market is projected to grow from USD 58.7 billion in 2025 to USD 96.4 billion by 2032, registering a CAGR of 7.3% during the forecast period. Growth is driven by expanding use of lightweight composite materials in construction, transportation, and renewable energy systems. GFRP offers strong mechanical performance combined with corrosion resistance and lower lifecycle maintenance costs.

 Wind energy installations, infrastructure upgrades, and industrial equipment modernization are increasing consumption. Advances in resin systems and fiber architectures are improving product durability and design flexibility. The market across China is expected to show consistent medium-to-strong growth through 2032.

Introduction

Glass Fiber Reinforced Plastic (GFRP) composites are engineered materials made by reinforcing polymer resins with glass fibers to achieve high strength, stiffness, and durability. These composites are valued for their lightweight nature, corrosion resistance, electrical insulation, and design flexibility. In China, GFRP composites are widely used in building panels, rebars, gratings, wind turbine blades, automotive components, pipes, tanks, and marine structures.

They are produced using processes such as pultrusion, filament winding, resin transfer molding, and compression molding. Compared to traditional metals, GFRP offers lower weight and reduced maintenance requirements in harsh environments. As industries prioritize performance and lifecycle efficiency, GFRP composites are gaining broader acceptance across structural and semi-structural applications.

Future Outlook

By 2032, GFRP composite usage in China will expand further across infrastructure, renewable energy, and transportation sectors. Advanced resin systems with improved fire, UV, and chemical resistance will gain greater adoption. Automated composite manufacturing and hybrid fiber architectures will improve performance consistency. Demand for GFRP in corrosion-prone infrastructure and coastal installations will increase.

Circularity initiatives will push development of recyclable resin systems and reuse pathways. Overall, GFRP will remain a core composite class balancing cost, performance, and scalability.

China Glass Fiber Reinforced Plastic Composite Market Trends

• Rising Use of GFRP in Corrosion-Resistant Infrastructure Applications
  Infrastructure owners in China are increasingly adopting GFRP for corrosion-prone environments. Bridges, wastewater plants, and coastal structures benefit from non-corrosive reinforcement. GFRP rebars and panels extend service life compared to steel. Lower maintenance requirements improve lifecycle economics. Governments are piloting composite-intensive infrastructure designs. This trend is strengthening GFRP specification in public works projects.

• Strong Demand from Wind Energy Blade Manufacturing
  Wind energy expansion in China is driving high-volume GFRP composite consumption. Turbine blades rely heavily on glass fiber composites for strength and fatigue resistance. Larger blade sizes increase material usage per unit. Manufacturers are optimizing fiber orientation and resin systems. Composite supply chains are aligning with renewable energy growth. This trend remains a major volume driver.

• Growth of Pultruded and Profiled Composite Structural Elements
  Pultruded GFRP profiles are gaining adoption in China for walkways, ladders, rails, and structural frames. These profiles offer consistent quality and high strength-to-weight ratios. Modular composite structures enable faster installation. Industrial plants prefer non-conductive and corrosion-resistant profiles. Standardization of profile shapes supports scale. This trend is expanding semi-structural GFRP markets.

• Increasing Penetration in Automotive and Transportation Lightweighting
  Transportation manufacturers in China are increasing use of GFRP parts to reduce weight. Interior panels, covers, and semi-structural components use glass fiber composites. Lightweighting improves fuel efficiency and range in vehicles. Cost advantages over carbon fiber support GFRP selection. Hybrid composite-metal designs are emerging. This trend supports gradual share growth in mobility segments.

• Advances in Resin Chemistry and Fire-Resistant Composite Systems
  Resin systems for GFRP in China are improving in fire, smoke, and toxicity performance. Modified polyester, vinyl ester, and epoxy systems enhance durability. Fire-retardant formulations expand building and rail use cases. Improved resin toughness increases impact resistance. Chemical-resistant resins support industrial tank and pipe markets. This trend raises performance thresholds.

Market Growth Drivers

• Infrastructure Modernization and Replacement of Metal Components
  Aging infrastructure in China is driving material replacement programs. GFRP is used to replace steel in corrosive environments. Composite rebars and panels extend service intervals. Lifecycle cost savings justify higher upfront material cost. Infrastructure resilience programs support adoption. Modernization is a key growth driver.

• Expansion of Renewable Energy Installations
  Renewable energy growth in China increases composite material demand. Wind turbine blades are major GFRP consumers. Grid and energy infrastructure use composite components. Lightweight materials support larger turbine designs. Policy support for renewables sustains demand. Renewable expansion is a strong driver.

• High Strength-to-Weight and Design Flexibility Advantages
  GFRP offers strong mechanical properties at lower weight than metals. Lightweight structures reduce transport and installation cost. Complex shapes can be molded efficiently. Design flexibility supports customization. Performance-to-weight ratio drives adoption. Material advantages are a core driver.

• Corrosion and Chemical Resistance in Industrial Environments
  Industrial facilities in China require materials that resist chemicals and moisture. GFRP pipes, tanks, and gratings perform well in harsh conditions. Reduced corrosion lowers downtime and maintenance cost. Chemical plants increasingly specify composites. Durability benefits drive material switching. Industrial resistance needs are a driver.

• Growth in Modular Construction and Prefabricated Systems
  Modular construction methods are expanding in China. GFRP panels and profiles support prefabricated assemblies. Lightweight components simplify transport and installation. Faster build times improve project economics. Composite modules enable design innovation. Modular growth supports demand.

Challenges in the Market

• Recycling and End-of-Life Disposal Limitations
  GFRP composites are difficult to recycle compared to metals. Fiber-resin separation is complex. End-of-life disposal raises environmental concerns. Recycling technologies are still developing. Regulations may tighten on composite waste. Sustainability challenges affect perception.

• Higher Initial Material Cost Versus Conventional Materials
  GFRP often has higher upfront cost than steel or aluminum. Budget-driven projects may resist switching. Lifecycle savings are not always prioritized. Cost sensitivity limits adoption in price-driven markets. Education on total cost of ownership is needed. Upfront cost is a barrier.

• Design Code and Standardization Gaps
  Engineering codes for GFRP structures are still evolving in China. Lack of familiarity slows specification. Conservative design practices favor traditional materials. Certification processes can be complex. Standard gaps create approval delays. Code maturity is a challenge.

• Mechanical Performance Variability and Quality Control Needs
  Composite performance depends on fiber distribution and curing quality. Manufacturing defects can reduce strength. Strict process control is required. Field installation errors affect outcomes. Quality assurance adds cost. Consistency is a technical challenge.

• Competition from Carbon Fiber and Advanced Composites in High-End Uses
  Carbon fiber composites compete in high-performance segments. Some applications shift to higher-modulus materials. Hybrid composites also compete. GFRP must compete on cost-performance balance. Premium segments may prefer carbon fiber. Competitive substitution is a constraint.

China Glass Fiber Reinforced Plastic Composite Market Segmentation

By Fiber Type

• E-Glass Fiber Composites

• S-Glass Fiber Composites

• Specialty Glass Fiber Composites

By Resin Type

• Polyester

• Vinyl Ester

• Epoxy

• Polyurethane

• Others

By Manufacturing Process

• Pultrusion

• Filament Winding

• Resin Transfer Molding (RTM)

• Compression Molding

• Hand Lay-Up and Spray-Up

By Application

• Construction and Infrastructure

• Wind Energy

• Transportation

• Pipes and Tanks

• Marine

• Electrical and Electronics

• Industrial Equipment

Leading Key Players

• Owens Corning

• Jushi Group

• Nippon Electric Glass Co., Ltd.

• Saint-Gobain

• PPG Industries, Inc.

• Chongqing Polycomp International Corp. (CPIC)

• Johns Manville

• BASF SE

Recent Developments

• Owens Corning expanded glass fiber composite solutions targeting infrastructure and wind energy applications in China.

• Jushi Group increased glass fiber capacity to support rising global composite demand.

• Saint-Gobain advanced composite reinforcement products for construction and industrial uses.

• PPG Industries, Inc. enhanced glass fiber and resin compatibility technologies for higher-performance GFRP systems.

• Johns Manville expanded composite mat and reinforcement offerings for pultrusion and molding markets.

This Market Report Will Answer the Following Questions

1. What is the projected market size and growth rate of the China Glass Fiber Reinforced Plastic Composite Market by 2032?

2. Which applications and industries are driving the highest GFRP demand in China?

3. How are infrastructure, wind energy, and lightweighting trends shaping adoption?

4. What challenges affect recycling, cost, and standardization of GFRP composites?

5. Who are the key players shaping supply, innovation, and competition in the GFRP composite market?