Why Tensile Strength Matters

In reinforced concrete, rebar primarily resists tensile (pulling) forces. If the rebar lacks sufficient tensile strength, structures are prone to cracking, deformation, or failure under load — especially in bridges, slabs, and industrial foundations.

How GFRP Rebar Excels

GFRP rebar offers up to 2x the tensile strength of steel with none of the weight or corrosion issues. It maintains this strength across a wide range of temperatures and stress conditions, making it ideal for high-performance infrastructure.

• Tensile strength up to 1500 MPa
• Exceptional performance under dynamic and static loads
• Non-magnetic and non-conductive under tension

Engineering Confidence

With superior tensile strength, GFRP rebar empowers engineers to design lighter yet stronger structures. This means:

• Reduced crack widths and longer span capabilities
• Improved structural resilience under high loads
• Greater reliability in seismic or vibration-prone zones

Ideal Applications

High tensile strength GFRP rebar is perfect for projects that demand robust structural performance:

• Long-span bridge decks and overpasses
• Industrial flooring and precast concrete panels
• Foundations in seismic or wind-prone regions
• High-load infrastructure such as airports or ports