Applications and Benefits of Hastelloy C276 Round Bars

Applications and Benefits of Hastelloy C276 Round Bars

What are Hastelloy C276 Round Bars?

Hastelloy C276 has outstanding mechanical qualities since it is an alloy of nickel, molybdenum, and chromium. Hastelloy C276 Round Bar is renowned for its ability to resist corrosion. The Hastelloy C276 Round Bar offers great formability, ductility, and weldability, just like the other nickel alloy. Iron and tungsten both have controlled concentrations and little carbon. In chloride conditions, it is also well recognized for having higher resistance to stress corrosion cracking. The Hastelloy C276 Round Bars have a strong resistance to pitting and are simple to produce using conventional methods. The Hastelloy C276 Round Bar is regarded as one of the most adaptable items available due to its special characteristics.

Applications of Hastelloy C276 Round Bars

These are used in many different applications, such as flue gas desulfurization equipment and chemical process equipment. The alloy is machinable and work-hardens like the majority of nickel-base alloys. These are available in the market at extremely competitive prices in a range of diameters, wall thicknesses, and sizes.

Hastelloy C276 Round Bars are frequently employed with a variety of features, including chemical and flue gas desulfurization equipment. The majority of chemical applications are suitable for it since it does not create grain boundary precipitates in the weld heat-affected zone in the as-welded condition. Pitting and stress corrosion cracking are two things it is extremely resistant to. It is not surprising that these products are frequently used in numerous commercial applications given their extensive array of long-lasting characteristics. This metal is used in waste fluid treatment systems when other metals cannot endure harsh conditions.

Benefits of Hastelloy C276 Round Bars

In Hastelloy C276 Round Bars the carbon content is kept to a minimum, and there are also controlled levels of tungsten and iron. When the carbon content is low, the amount of carbide that is deposited during heat treatment and welding is minimized.

This indicates that even when used in welded systems, the metal maintains good resistance to pitting and crevice corrosion. Other materials may become weaker after being heated during welding, increasing their corrosion resistance. The material’s resistance to corrosion is one of its key characteristics.

Extremely resistant to this include solvents, sulphuric, hydrochloric, and phosphoric acids; strongly oxidizing, acidic, and acid chlorides; conventional and acetic acids; acetic anhydride; liquid chlorine gas; hypochlorites; and chlorine solutions. As a result, this product is well-utilized in the chemical processing sector. Additionally, it is highly resistant to corrosion brought on by seawater.