There are many types and shapes of steel fibers on the market, such as corrugated, end hooked, multi-anchored, and milled. Why do merchants make steel fibers into various shapes? Today, I will explain in detail the different roles played by different shapes of steel fibers.
Steel fiber is an important industrial reinforcing agent in engineering. In order to enhance the strength of concrete, we often add a large amount of steel fiber to increase the crack resistance and earthquake resistance of concrete.
In order to achieve this goal, not only the performance and quality of the steel fiber should be improved, but also its shape should be changed accordingly, and its performance should be changed by changing the shape of the steel fiber.
By changing its shape, the ability to fit between individual steel fibers can be stronger, so that the strength of the steel fibers can be higher, the steel fibers can play a stronger bond, and they can better bond with the concrete. glue.
By changing the shape of the steel fiber, a pinch roller can be used to press a groove on the steel wire during the production of the steel fiber, so that the produced steel fiber has a better fit and can be better bonded to the concrete Together, they can also be better embedded in the steel fiber mass, thereby greatly enhancing the strength of the concrete.
In addition, there is a method of bending the steel fiber into a water wave shape. This method is to use a pinch roller to bend the steel fiber into the shape of a water wave, which can make the fitting force of the steel fiber stronger, far from Better than the previous method, the ability to strengthen the strength needless to say.
Furthermore, there is a more important method, which is to see that the steel fiber is pressed into a hook shape. After adding the steel fiber, the strength will be far superior to the first two methods.
By changing the shape, the performance of the steel fiber can be enhanced, and the strength of the matrix after being added by the steel fiber can be changed. It is a very common method of producing and processing steel fibers.
