Next Gen Straight Rebars | High-Performance Composite Rebars | Infrabond Composites
Infrabond Next Gen Straight Rebars – lightweight, corrosion-resistant composite rebars for bridges, marine, industrial, residential, and energy projects. Stronger than steel, built for the future. Next gen straight rebars, composite rebars, GFRP rebars, FRP rebars, corrosion free rebars, non-corrosive reinforcement, Infrabond composites, steel alternative rebars, lightweight rebars, infrastructure rebars, eco-friendly rebars.
Redefining Structural Reinforcement
The construction sector has always depended on steel rebars for structural strength. However, challenges like corrosion, heavy handling, and costly maintenance limit their long-term performance. At Infrabond Composites, we present Next Gen Straight Rebars—a cutting-edge alternative that offers unmatched strength, durability, and sustainability for next-generation infrastructure.
What Are Next Gen Straight Rebars?
Infrabond’s Next Gen Straight Rebars are advanced composite reinforcement bars made with high-strength fibers and resin binders. Unlike steel, they don’t rust, conduct heat, or weigh heavy—making them the perfect solution for modern infrastructure that demands longevity, safety, and cost-effectiveness.
Key Features
- Corrosion-Proof – Withstand saline water, chemicals, and extreme weather.
- Lightweight Strength – Up to 75% lighter than steel with higher tensile strength.
- Thermally & Electrically Non-Conductive – Safer for power, rail, and smart infrastructure.
- Long Service Life – Designed for 100+ years of structural integrity.
- Eco-Friendly – Lower carbon footprint and sustainable manufacturing.
- Low Maintenance – Reduced lifecycle costs compared to steel.
Building the Future with Infrabond
With Next Gen Straight Rebars, Infrabond Composites is enabling builders, engineers, and infrastructure developers to create long-lasting, sustainable, and safer structures. Whether it’s a coastal bridge, a smart city metro, or a renewable energy foundation—our rebars ensure performance that outlives steel.
Use cases
Cite the IIT/CSIR study to show how bridge piers reinforced with GFRP (i.e. straight composite rebars) perform under lateral / seismic loads, demonstrating reliability in Indian environmental and regulatory context.
Use the Solapur / Walchand Institute bond study to illustrate how your composite rebars maintain bond and integrity even under corrosive exposure (e.g. salt water, cyclic wet-dry), which is especially relevant for marine, coastal, and monsoon-affected regions in India.
Use the Patna Metro example to show real infrastructure adoption: metro viaducts and station structures using GFRP to reduce maintenance and extend service life under difficult climate conditions.