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Flat Bars play a pivotal role in diverse structural applications, serving as essential components in the construction sector. Widely utilized for a range of purposes, they find common application in wall coverings, ceilings, roofs, bridges, and water tanks.

The manufacturing process of Flat Bars involves cutting or bending steel plates, with the shaping accomplished through either hot or cold rolling methods. Stringent quality control measures are implemented during production, ensuring that the resultant products meet rigorous standards for quality, durability, and strength.

Available in an array of thicknesses and sizes, Flat Bars typically exhibit thicknesses ranging from 1 to 5 mm, with widths varying between 1000 to 2000 mm. Moreover, they offer the flexibility of customization, allowing for the production of bespoke sizes tailored to the specific requirements of customers.

Renowned for their versatility, Flat Bars are extensively employed in the construction sector, finding favor as cladding materials. Their applications span external facade coverings, internal walls, ceilings, and roofs of buildings. These products are preferred for their durability, longevity, and inherent strength.

To sum up, Flat Bars stand out as indispensable elements in the construction industry, fulfilling varied structural roles. Produced in diverse dimensions, they serve as reliable components in different applications. Crafted from high-quality steel, Flat Bars are favored for their enduring strength and durability, making them a preferred choice in construction projects.

Usage areas

  1. Construction Structures: Widely embraced in the construction industry, Flat Bars are instrumental in the creation of reinforced concrete structures. They find application in the construction of bearing elements for floors and columns.
  2. Road Construction: In road construction, Flat Bars profiles are commonly employed. They serve as essential components in the carrier elements of road barriers, pavements, and other structures along roadsides.
  3. Train Tracks: The use of Flat Bars profiles extends to the construction of train tracks and railway lines. They play a pivotal role in the carrier elements of rails and other structural components vital for efficient rail systems.
  4. Port Structures: Within port structures, Flat Bars profiles find application, particularly in the carrier elements of scaffolds. Their strength and durability contribute to the stability of port infrastructure.
  5. Fence and Security Barriers: Flat Bars profiles are utilized in the construction of fences and security barriers, serving as reliable carrier elements. Their robustness enhances the effectiveness of these protective structures.
  6. Prefabricated Structures: The versatility of Flat Bar profiles is evident in their usage as carrier elements in prefabricated structures. They contribute to the stability and strength of these efficiently assembled constructions.
  7. Water Structures: In water-related projects, Flat Bar profiles play a vital role. They are used in the bearing elements of dams, walls of water channels, and other structural components critical for water structures.
  8. Energy Transmission: Flat Bar profiles are preferred for energy transmission applications, especially in the construction of electrical poles and as carrier elements for transformers. Their structural integrity contributes to the reliability of energy transmission systems.

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