Nickel 200 Fasteners
Commercially pure nickel is used to make Nickel 200 fasteners. They handle corrosion and oxidation in anhydrous hydrofluoric acid and caustic alkali solutions. Although the bolts used to fasten this material are not widely known for their ability to resist corrosion, they can offer remarkable oxidation resistance up to 1600F, surpassing Inconel 718’s capability. They are therefore perfect for usage in gas turbines and other aerospace applications.
Benefits of Nickel 200 Fasteners
Nickel 200 Fasteners, which are renowned for their extreme hardness and strength, are a good choice for many industrial applications. These fasteners are perfect for a variety of applications where pressure and corrosion are major concerns. They are utilized to join several elements without running the risk of fracturing or causing more harm to the constituent parts. Additionally, they can resist tremendous pressure without causing the assembly’s structure to degrade. They are an excellent choice for a range of applications in the food, petrochemical, and aerospace industries because of these qualities.
Their thermal conductivity is an added benefit. Because of this characteristic, Nickel 200 is resistant to pressure, heat, and stress. They can also absorb sound and vibrations, which are crucial elements for a range of applications. For applications involving high temperatures, such as instrument components and transition ducts, nickel 200 fasteners are frequently utilized in the aerospace and maritime industries. Along with the synthetic fiber and plastics industries, the food processing sector is another business that uses nickel fasteners.
High corrosion resistance is another advantage of Nickel 200 Fasteners. One of the world’s toughest metals, nickel has an incredible range of uses for its alloys. It can work in a variety of conditions, including those with high heat and pressure and corrosive fluids, due to its mechanical characteristics. Nickel is a great material for fasteners since it is also excellent against hydroxides.