Next-Gen Infrastructure Composite Fiberglass Rebar For a Greener Future

Revolutionizing the non-metallic mineral products industry with high-performance GFRP reinforcement solutions that eliminate corrosion and maximize structural lifespan.

50,000+ Tons

Annual Output

120+

Countries Served

7 Days

Sample Lead Time

99.9%

On-Time Delivery

Redefining Structural Integrity with Composite Technology

As a global leader in the non-metallic mineral sector, we specialize in the manufacturing of high-strength composite fiberglass rebar. Our products are engineered to replace traditional steel in aggressive environments, offering absolute corrosion resistance and a significantly reduced carbon footprint for sustainable construction.

By leveraging advanced pultrusion technology, our fiberglass reinforced plastic solutions provide a superior strength-to-weight ratio. This technical advantage allows for faster installation, lower transport costs, and a structural lifespan that exceeds conventional materials by decades in saline and chemical-rich soils.

Engineering Excellence through
Advanced Polymer Matrix

Our GFRP rebar is built upon three fundamental technical pillars that ensure unmatched reliability in the field.

Premium Fiber Integration

Utilizing E-glass and S-glass fibers to achieve optimal tensile strength and durability.

High Modulus: Ensures minimal structural deformation under load.
Thermal Stability: Maintains properties across extreme temperatures.
Eco-Friendly: Non-toxic and recyclable glass components.

Advanced Pultrusion

Precision automated pulling process ensuring uniform fiber distribution.

High Volume: Continuous production for large-scale projects.
Uniformity: Zero-defect surface finish for better bonding.
Custom Geometry: Available in various diameters and shapes.

Rigid Quality Control

Strict adherence to international standards for structural composite materials.

Tensile Testing: 100% batch testing for load capacity.
Bonding Assay: Specialized sand-coating for concrete adhesion.
Dimension Audit: Micron-level accuracy in diameter control.

Performance Analytics &
Material Efficiency

Comparative data demonstrating the superiority of GFRP over traditional reinforcement.

Market Adoption by Sector

Marine Structures

Urban Infrastructure

Chemical Plants

Residential

Material Comparison Matrix

Composite Rebar

Carbon Steel

Stainless Steel

Technical Data Sheets,
GFRP Specification Guide

Comprehensive mechanical properties for standard
composite fiberglass rebar profiles.

Diameter (mm)	Tensile Strength (MPa)	Elastic Modulus (GPa)	Weight (kg/m)	Elongation (%)	Surface Coating
6mm	600-800	40-50	0.22	2.1	Sand Coated
8mm	600-800	40-50	0.40	2.0	Ribbed
10mm	600-800	40-50	0.62	1.9	Sand Coated
12mm	600-800	40-50	0.89	1.8	Ribbed
16mm	600-800	40-50	1.42	1.7	Sand Coated
20mm	600-800	40-50	2.21	1.6	Ribbed
25mm	600-800	40-50	3.46	1.5	Sand Coated
32mm	600-800	40-50	5.52	1.4	Ribbed

Note: All specifications are based on standard pultrusion processes. Custom mechanical properties can be achieved upon request for specialized aerospace or deep-sea applications.

Proven Performance in
Real-World Applications

How our composite solutions are solving the world's most challenging corrosion problems.

Coastal Highway Project

Marine Concrete Decking

Implemented GFRP rebar to prevent saltwater chloride ingress in high-salinity coastal zones.

0% Corrosion 50 Year Lifespan

Chemical Processing Plant

Acid-Resistant Flooring

Replacing epoxy-steel systems with GFRP to handle corrosive industrial effluent.

Acid Proof Reduced Maintenance

Urban Bridge Reinforcement

Lightweight Retrofitting

Using composite rebar to increase load capacity without adding significant dead weight.

Weight Reduction High Tensile

Airport Runway Slab

Non-Magnetic Reinforcement

Utilizing GFRP's non-magnetic properties to avoid interference with sensitive navigational equipment.

Zero Interference Rapid Install

Wastewater Treatment Plant

Sewerage Tank Lining

Eliminating steel corrosion in anaerobic environments through total fiberglass encapsulation.

Chemical Resistance Leakage Prevention

Offshore Oil Rig

Extreme Saline Reinforcement

Providing ultimate corrosion protection for structural supports exposed to constant spray and immersion.

Marine Grade High Fatigue Resistance

Versatile Deployment in
Global Industrial Sectors

From deep sea to high-tech labs, our composites offer the ideal blend of strength and resilience.

Marine Infrastructure

Piers, seawalls, and docks requiring zero-corrosion support.

Energy Sector

Wind turbine bases and solar farm mounts in corrosive soil.

Chemical Processing

Reinforcement for containment tanks and corrosive slabs.

Civil Engineering

Roadways and bridge abutments in de-iced winter zones.

Aerospace Facilities

Magnetic-neutral slabs for precision calibration labs.

Tunneling & Mining

Corrosion-resistant support for underground mining shafts.

Certified Quality &
Global Standards

ASTM Compliance

Every batch of GFRP rebar is tested according to ASTM D7957 standards to ensure tensile strength and consistency.

Precision Pultrusion

Our closed-loop automation system monitors resin viscosity and fiber pull-speed in real-time.

Traceability Protocol

Full lifecycle traceability from raw glass fiber input to final shipment delivery.

Trust Verified

Our manufacturing facility is audited annually by third-party international certification bodies.

✓ ISO 9001:2015 ✓ CE Certified ✓ SGS Verified

Frequently Asked
Questions

Expert answers to common technical and commercial inquiries.

How does GFRP rebar compare to traditional steel?

Unlike steel, composite fiberglass rebar is completely immune to oxidation and corrosion. It is significantly lighter while providing a higher tensile strength, though it has a lower elastic modulus.

Is fiberglass rebar suitable for high-load beams?

Yes, provided the design accounts for the different modulus of elasticity. It is ideal for slabs, walls, and secondary beams where corrosion is a primary threat.

How does GFRP bond with concrete?

We use specialized surface treatments such as ribbed patterns or sand-coating to create a mechanical interlock, ensuring strong load transfer between the rebar and concrete.

What is the fire resistance of composite rebar?

GFRP is naturally non-combustible. When embedded in concrete, the concrete acts as a thermal shield, maintaining structural stability during fire events.

Can GFRP be bent on site?

No, GFRP rebar cannot be bent after curing. All bends and shapes must be factory-manufactured according to the structural drawings.

What is the lead time for bulk orders?

Depending on the volume and customization, bulk orders typically range from 15 to 30 days. We provide a detailed shipping schedule during the quoting phase.

Secure Your Infrastructure with Composite Fiberglass Rebar

Stop battling rust and corrosion. Upgrade to high-performance GFRP solutions that guarantee longevity and structural safety.

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