Bonyad Boton Isfahan

A bed reinforcing bar is one of the main elements in construction projects, enhancing the strength of structures and having a significant role in the stability and safety of buildings.
Specifically, the bed reinforcing bar is used to connect various structural components and to create a surface resistant to vertical and horizontal pressures. This rebar is generally used in recessed foundation areas, substructures, frames, and concrete and steel skeletons to distribute earthquake loads, corrosion stresses, and other lateral forces evenly. The main goal of using bed reinforcing bars is to reduce cracking, increase durability, and improve the bonding of structural components.

The joist truss, or truss system, is a vital part of modern concrete and steel structures that plays a crucial role in supporting the loads of roofs and beams. In construction projects, using a joist truss can reduce the weight of the structure, improve execution performance, and decrease construction costs.

With the latest global technologies in structural engineering, High-Strength Concrete (HSC) is recognized and used as one of the newest construction materials. This type of concrete, formulated from precisely calculated amounts of cement, high-quality aggregates, and suitable additives, delivers much higher compressive strength compared to conventional concrete. The results are more durable structures, less brittleness, and longer service life, benefiting employers, contractors, and the community.

Fiber-reinforced concrete is a key innovation in structural engineering that, by adding fibers resistant to tension into the concrete mix, not only increases flexural and tensile strengths but also enhances the practical performance of concrete against cracking, bending, and impact. This new technology, with its simple composition and wide-ranging benefits such as reducing surface cracks, improving resistance to freeze-thaw cycles, and better workability indicators, is being realized in practice.