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Cobalt Nickel 188, commonly referred to as Haynes 188 or Alloy 188, is a high-performance alloy that has become indispensable in industries requiring exceptional high-temperature strength and oxidation resistance. This alloy, primarily composed of cobalt, nickel, chromium, and tungsten, offers a unique combination of properties that make it ideal for demanding environments. Key Properties of Cobalt Nickel 188 Sheet High-Temperature Strength: Cobalt Nickel 188 retains its mechanical properties at elevated temperatures, making it suitable for applications where other materials might fail. The alloy's strength at high temperatures is largely due to the presence of tungsten, which enhances its creep resistance. Oxidation and Corrosion Resistance: One of the standout features of Cobalt Nickel 188 is its ability to resist oxidation at temperatures up to 2000°F (1093°C). The chromium content in the alloy forms a protective oxide layer, preventing further degradation. This property is particularly valuable in environments where components are exposed to extreme heat and corrosive conditions. Fabricability: Despite its high strength, Cobalt Nickel 188 can be easily fabricated. It can be formed into various shapes using conventional techniques, including rolling, drawing, and extrusion. The alloy is also weldable using standard methods, making it versatile for manufacturing complex components. Good Ductility: The alloy maintains good ductility even after prolonged exposure to high temperatures, which is crucial for applications that require materials to withstand mechanical stresses without cracking or breaking. Applications of Cobalt Nickel 188 Sheet The unique properties of Cobalt Nickel 188 make it a preferred material in several high-performance applications, including: Aerospace Industry: The aerospace sector extensively uses Cobalt Nickel 188 in the manufacture of gas turbine components such as combustors, liners, and afterburners. The alloy's ability to withstand extreme temperatures and resist oxidation makes it ideal for these applications. Industrial Gas Turbines: Similar to its use in aerospace, Cobalt Nickel 188 is employed in the production of turbine blades and vanes in industrial gas turbines. These components operate under high thermal stress, and the alloy's durability ensures long service life. Power Generation: In power plants, especially those utilizing high-efficiency turbines, Cobalt Nickel 188 sheets are used in various components that are exposed to high temperatures. The alloy’s performance ensures the reliability and efficiency of power generation equipment. Chemical Processing: The chemical industry benefits from Cobalt Nickel 188's corrosion resistance, particularly in environments that involve high-temperature reactions and corrosive chemicals. The alloy is used in heat exchangers, reactors, and other critical components.
