125 x 125 x 6 SHS: Understanding the Dimensions and Applications of Square Hollow Sections
Introduction
Square Hollow Sections (SHS) are a type of hollow structural section that is commonly used in various construction and engineering projects. One of the popular sizes of SHS is 125 x 125 x 6, which is widely used in building construction, bridges, and other infrastructure projects. In this article, we will explore the dimensions, properties, and applications of 125 x 125 x 6 SHS.
Dimensions and Properties
A 125 x 125 x 6 SHS has the following dimensions:
- Outside dimensions: 125 mm x 125 mm (width x height)
- Wall thickness: 6 mm
- Inner dimensions: 113 mm x 113 mm (width x height)
- Surface area: 0.625 m² (per meter length)
- Weight: approximately 12.5 kg/m (depending on the material)
SHS is available in various materials, including carbon steel, stainless steel, and aluminum. The properties of SHS depend on the material used, but generally, SHS has high strength-to-weight ratios, corrosion resistance, and durability.
Applications
125 x 125 x 6 SHS is widely used in various construction and engineering projects due to its versatility and strength. Some of the common applications include:
Building Frames
SHS is used as a primary framing material in building construction, providing support for floors, roofs, and walls.
Bridge Construction
The high strength-to-weight ratio of SHS makes it an ideal material for bridge construction, where it is used for piers, abutments, and other structural components.
Machine Frames
SHS is used in machine frames and equipment due to its high strength, durability, and corrosion resistance.
Furniture and Decorative Applications
SHS is also used in furniture making, decorative accents, and other architectural features due to its clean, square lines and versatility.
Conclusion
In conclusion, 125 x 125 x 6 SHS is a versatile and widely used material in various construction and engineering projects. Its high strength, durability, and corrosion resistance make it an ideal choice for building frames, bridge construction, machine frames, and other applications. By understanding the dimensions and properties of SHS, designers and engineers can optimize their designs and benefit from the advantages of this material.
