Reinforcing Concrete Structures Stronger With Something Stronger Than Steel

Have you ever stopped and really looked at the world around you and wondered how it all works? It is funny because most people stop and what something is and rarely wonder how something is designed. Think about the roads you drive on every day. The dedicated city workers have a tremendous job on their hands when it comes to constructing the safest, most reliable ways for people to travel on the road. But what goes into creating our streets.

What Is This Rebar

Glass Fiber Reinforced Polymer or gfrp rebar is an easy way to prevent concrete issues. When designing a roadway, one of the chief concerns that engineers have is having the long-term consequences of their design in mind. Technology has been able to revolutionize the way in which we create everything, even roads. The fact is, the way we used to design our roadways has adjusted so much due to the lifespan of materials typically used in its construction. An example of this is corrosion, or the process of corroding metals, stones, or other similar materials that is a natural process that changes the refined content into something more chemically stable. The conversion comes in the form of oxide, hydroxide, or sulfides. All in all, corrosion is the process in which there is a slow breakdown of certain materials by chemical or some other reaction with the environment.

With concrete roads, we drive on every day, whenever there is corrosion of the internal reinforcement material, mainly steel in most cases, is a severe issue that causes severe damage to structures, but certainly causes the most problems with concrete structures. Once there are corrosion issues that occur, then the specific construction will likely begin cracking, which then allows a pathway for other chemicals such as chlorides that will eventually cause more damage through oxidation of the steel bars.

Glass Fiber Reinforced Polymer Rebar are great ways to eliminate this issue. Fiber Reinforced Polymers or FRP’s, have been scientifically proven to extend the service life of the concrete structures by reducing or eliminating the oxidation process. Concrete structures can be exposed to so many different types of chlorides depending on where it is located. For example, if you have a sea wall or a dry dock, there is a high likelihood that the structure will be exposed to marine chlorides.

Making the switch to Glass Fiber Reinforced Polymer Rebar from the traditional Steel Rebar can avoid many headaches. Steel was a great option when initially designing structure, but over time, we have found that steel has many flaws that we can prevent. From the hefty weight of the steel that increases the cost of the overall structure, to the corrosion that rusts while also being far more expensive than the alternative, the engineers that are tasked with designing the concrete structures around the city or towns are now all designing their structures with Glass Fiber Reinforced Polymer rebars.