• Categories
  • Suppliers

Prime Companies

Ferralium 255

Ferralium 255 10D Pipe Bend Pipe Fittings is an impressive solution for environments where high mechanical strength and outstanding corrosion resistance are of prime importance. These fittings are manufactured with a unique chemical composition of Super Duplex Steel, ensuring the best of both worlds in strength and corrosion resistance. Comprising a mix of 24-27% chromium, 4-6% molybdenum, 1-2.5% nickel, and trace amounts of other elements, such as copper and tungsten, these great pipe bends can effortlessly withstand harsh environmental conditions, making them ideal for various industries such as marine, petrochemical, and even nuclear projects. The carefully formulated composition of Super Duplex Steel Ferralium 255 guarantees resilience and durability, ensuring the utmost reliability and longevity for piping systems requiring superior performance.

Ferralium Super Duplex Steel 255 10D Pipe Bend Pipe Fittings are ideal for use in many industries, including chemical processes, seawater systems, and oil and gas pipelines. These extremely corrosion-resistant fittings can withstand temperatures from -50°C (low temperature) to 300°C (high temperature). Additionally, these fittings boast excellent resistance to pitting and crevice corrosion in chloride environments. Further uses include desalination facilities where salt-enriched water is used in cooling systems. Super Duplex Steel Ferralium 255 10D Pipe Bend Pipe Fittings have proven to be effective over a wide range of pressure levels ranging from low, moderate, high and extreme pressure applications. Their durability and strength make them an all-around ideal option for various sensitive situations.

FAQ's for Super Duplex Steel Ferralium 255 10D Pipe Bend Pipe Fittings

Super Duplex Steel Ferralium 255 10D Pipe Bend Pipe Fittings offers improved fatigue strength, corrosion resistance and better tensile properties compared to other alloys

Super Duplex Steel Ferralium 255 10D Pipe Bend Pipe Fittings have a density of 7.8 g/cm3.

No more suppliers available.