it is made from glass fibers and polymer resin, which do not rust like steel.
This makes it ideal for harsh environments like marine or chemical exposure. It ensures long-term durability without degradation from moisture or salt.
GFRP rebar is 75% lighter than steel because it’s made from glass fibers and resin, not dense metals.
This reduces transportation and handling costs. Its lightweight nature also simplifies construction and improves safety on-site.
glass fibers are strong under tension and do not yield like steel.
It can withstand greater stress before breaking. This makes it ideal for load-bearing and structural applications.
it contains no metal, only insulating glass fibers and resin. This prevents the flow of electrical current.
It's ideal for use near power lines, MRI rooms, or sensitive electronic environments.
it lacks metallic components, making it completely non-magnetic. It doesn't interfere with sensitive equipment like MRI machines.
This makes it ideal for hospitals, labs, and electromagnetic-sensitive structures.
its composite materials do not react with harsh substances. Unlike steel, it doesn’t corrode or degrade in alkaline or chemically aggressive environments.
This ensures long-lasting performance in wastewater, marine, and industrial applications.
it doesn't rust or expand like steel when exposed to moisture. This preserves concrete integrity over time.
It ensures a longer-lasting, crack-free structure.
its high strength-to-weight ratio and ease of fabrication. It can be molded or bent to suit complex architectural or structural needs.
This allows innovative designs without compromising performance.
it’s lightweight and can be cut with standard power tools. It doesn’t require heavy machinery like steel.
This speeds up installation and reduces labor costs on-site.
GFRP rebar is compatible with all concrete types due to its inert, non-reactive composition.
It bonds well with standard and specialty concretes alike. This makes it versatile for a wide range of construction applications.
it resists expansion, contraction, and deformation under temperature and moisture changes.
This ensures consistent structural performance. It helps maintain the integrity of concrete over time.
GFRP rebar is tested and approved by international standards like ASTM and ACI for structural use. It undergoes rigorous quality and performance evaluations.
This ensures reliability, safety, and code compliance in construction projects.
it reduces the need for repairs, lowering resource consumption over a structure's life. Its production generates less CO₂ compared to steel.
This supports sustainable and green building practices.
GFRP rebar offers long-term cost efficiency by eliminating corrosion-related repairs and extending the lifespan of structures.
Its durability reduces maintenance and replacement costs. Though initial costs may be higher, overall lifecycle savings are significant.
GFRP rebar has low thermal conductivity due to its non-metallic glass fiber and resin composition. It doesn’t transfer heat like steel, reducing thermal bridging.
This enhances energy efficiency and structural performance in extreme temperatures.