Hastelloy C276 Forging
Hastelloy C276 is frequently utilized in harsh situations with high temperatures because of its exceptional corrosion resistance. Hastelloy C-276 is exceptionally resistant to pitting and crevice corrosion due to its high molybdenum content and low carbon content. An alloy is a suitable option for many applications due to its strong corrosion resistance, which also aids in preventing carbide precipitation during welding. It is perfect for use in various chemical processing applications due to its strong welding performance and corrosion resistance.
Benefits and Uses of Hastelloy C276 Forging
Forgings made from Hastelloy C276 are a strong, corrosion-resistant, and adaptable alloy. The alloy performs better in many applications than traditional duplex stainless steel and is frequently used in place of 300 series stainless steel in high-temperature and low-pH conditions. Hastelloy C22 has strong thermal resistance to pitting, much like Hastelloy C-276.
A nickel-base superalloy with exceptional corrosion resistance is known as Hastelloy C276. It is a fantastic option for a range of applications due to its great resistance to pitting, crevice corrosion, and stress corrosion cracking. It can endure extreme situations like steam, acidic gases, and water that is chloride-rich. Hastelloy C276 also provides outstanding resistance to oxidizing media.
A nickel-based alloy with exceptional corrosion resistance in challenging chemical process conditions is Hastelloy C276 Forging. It is a well-liked option in petrochemical, pharmaceutical, pulp, paper production, and waste treatment applications due to its exceptional corrosion resistance. This material is a promising option for use in flue gas desulfurization systems because of its exceptional resistance to chloride ions.
The main component of Hastelloy C276 is a tungsten-containing nickel-chromium-molybdenum alloy. It is well known for its ability to withstand corrosion in a variety of adverse circumstances. It has exceptional localized corrosion resistance due to its high molybdenum concentration. Additionally, there is less precipitation of carbide while welding. This alloy was created in 1965 and is refined outside of a furnace. It is renowned for its intrinsic high-purity quality.
The cost of the raw materials used to create Hastelloy C276 is directly proportional to the cost of the alloy's forging and casting. These materials include scrap metal, nickel, and iron ore. The cost of producing heat-resistant steel and nickel alloy plates is higher due to these materials' high nickel and chromium content. Although mild steel is one of the least expensive materials on the market, producing it costs more due to the high-grade nickel and chromium content.