35*35*3 equilateral angle steel triangle is a building material with a wide range of applications, and its excellent structure and characteristics make it play an important role in many fields. This article will delve into the application characteristics of **35*35*3 equilateral angle steel triangle to help readers better understand and apply this material.
First, structural characteristics.
35*35*3 equilateral angle steel triangle iron is made of equilateral angle steel, which has the characteristics of equal thickness and equal weight, so that its structure is stable and the force is uniform. This structural feature makes it excellent in terms of compression, tensile and shear forces, and can disperse and withstand various external forces.
Second, the application field is wide.
35*35*3 equilateral angle steel triangle iron has a wide range of applications in many fields such as construction, bridges, machinery manufacturing, shipbuilding, petrochemical industry, etc. In the field of construction, it is often used as a structural component such as beams, columns, and supports to provide stable support and protection for buildings. In bridge construction, it can be used for piers, abutments and other parts to enhance the bearing capacity and stability of the bridge.
3. Easy to process and install.
35*35*3 equilateral angle steel triangle has good plasticity and weldability, which is convenient for cutting, bending, welding and other processing operations. This makes it possible to process and install it quickly and accurately according to actual needs at the construction site, which greatly improves the construction efficiency.
Fourth, the carrying capacity is strong.
Because the 35*35*3 equilateral angle steel triangle has a large cross-sectional area and a high yield strength, it has a good bearing capacity. In practical application, it can withstand large pressure and tensile force to ensure the stability and safety of the structure. In addition, its equilateral and equal-thickness structure also makes it excellent in terms of withstanding shear forces, which can prevent shear failure of the structure.