FU Conveyor Chains are high-performance chains widely used for material transportation across various industries.
Each component of FU conveyor chains is made from high-quality materials and undergoes multiple heat treatment processes. The hardness and dimensions are fully inspected, and after passing quality checks, the chains are assembled using unique techniques. They are then subjected to tensile strength tests to ensure excellent resistance to stretching and wear, resulting in a long service life.
FU conveyor chains are highly versatile and find applications in industries such as automotive, mining, grain, metallurgy, feed, and brewing. The chains come with various roller types, including standard rollers (S), large rollers (D), and flanged large rollers (F). Additionally, attachments like horizontal bend plates and raised flight links are available to meet diverse industry needs.
Moreover, FU scraper chains are suitable for industries such as construction materials, chemicals, coal, and power. They exhibit excellent wear resistance and can adapt to different working environments.
During the conveying process, FU conveyor chains use chains as the traction component, paired with wear-resistant rubber discs or alloy scrapers. This design allows them to handle various powdered, granular, and small lump materials, such as coal powder, cement, grain, and fertilizer, demonstrating strong material adaptability.
When selecting FU conveyor chains, it is essential to choose the appropriate chain speed based on the material characteristics. For example, materials with high abrasiveness, elevated temperatures, or large particles should be conveyed at slower speeds. Once the chain speed is determined, the appropriate machine model can be selected based on the required conveying capacity. For the same conveying capacity, choosing a larger machine model can reduce the chain speed, thereby extending its service life.
In summary, FU conveyor chains are the preferred choice for material transportation in multiple industries due to their superior performance, wide range of applications, and strong material adaptability.
