• Categories
  • Suppliers

Prime Companies

718

718 Inconel Hot Induction Bend pipe fittings comprise a nickel-chromium-molybdenum alloy containing fifty to fifty-five per cent nickel, seventeen to twenty-one per cent chromium, four to six per cent molybdenum, and other elements such as titanium, cobalt, aluminium, copper and iron in varying amounts. This composition makes these pipe fittings more robust and corrosion-resistant than traditional stainless steel alloys. Its superior strength makes Inconel 718 ideal for high-temperature applications without sacrificing its resistance to thermal shock or damage from minor levels of hot work. The alloy also demonstrates good fatigue and creep resistance performance under long-term stress conditions. The chemical composition of Inconel 718 Hot Induction Bend Pipe Fittings gives it its superior quality characteristics.

Inconel 718 is a versatile hot induction bend pipe fitting material, thanks to its excellent mechanical properties and resistance to environmental degradation. It is commonly used in critical fasteners, springs, gears, and engine parts subject to extreme thermal gradients. In addition, Inconel 718 is highly resistant to corrosion, oxidation and pitting even in acidic conditions making it the ideal choice for producing fitments such as valves and tubing that come into contact with highly corrosive materials. It also possesses high tensile strength at temperatures up to 1800°F (980°C), making it one of the most reliable components used across various industries, from petroleum production to aerospace engineering.

FAQ's for Inconel 718 Hot Induction Bend Pipe Fittings

The Harmonized System of Nomenclature (HSN) code for Inconel 718 hot induction bend pipe fittings is 7326. This code is used to classify the product in standard international trade categories, allowing it to be identified more quickly and accurately when trading with foreign countries.

Inconel 718 hot induction bend pipe fittings can be successfully welded using GTAW (gas tungsten arc welding), GMAW (gas metal arc welding), and SAW (submerged arc welding). To ensure a quality weld, it is recommended that all surfaces are cleaned before welding and any debris removed. Using an appropriate filler metal, correct heat input, travel speed, and post-weld heat treatment is also essential.

No more suppliers available.