Nickel 200 pure wrought nickel is resistant to a variety of corrosive media including sulfuric acid, alkaline salt solutions, and strong oxidants. Nickel (at least 99.5%) is the most abundant element in this alloy, which also contains trace elements of iron, manganese, carbon, copper, silicon, and sulfur. These can provide superior performance in both electrical conductivity and mechanical properties even at high temperatures. It is quite regularly taking place in production of multiple industrial items, such as chemical processing, electronics, and aviation. The main properties, namely the high thermal conductivity and electric conductivity that it shows, are prominent. Above all, its high resistance to alkalis and acids makes it a good selection involving the handling of certain caustic solutions. Nickel 200 is recognized for its impressive chemical composition that makes it a premium material choice in applications demanding strict reliability, corrosion resistance, and durability which provide a long-term performance even in aggressive conditions.
Nickel 200 wrought (pure) nickel alloy, in its commercial grade, is very resistant to many agencies that would initiate corrosion. Unlike commonly available metals, the amount of nickel in it is more than what usually is available (99.5%). Small quantities of elements such as iron, manganese, silicon, and carbon also contribute to its chemical composition. An outstanding feature of graphene here is its high thermal and electrical conductivity as well as low gas content which are widely applicable for the chemnical and electronics industries. On top of that, Nickel 200 earns popularity in caustic alkalis, reducing chemicals, and electronic parts. It is quite a valuable option as the major tool for handling chemicals in chemical industry. Below is a concise grade table and chart highlighting its chemical composition and standards compliance.
Elements | Nickel, Ni | Iron, Fe | Manganese, Mn | Silicon, Si | Copper, Cu | Carbon, C | Sulfur, S |
---|---|---|---|---|---|---|---|
Min (%) | - | - | - | - | - | - | - |
Max (%) | 99 | 0.40 | 0.35 | 0.35 | 0.25 | 0.15 | 0.010 |
Advantages:
Corrosion Resistance: Wide resistance to various corrosive conditions in industrial processes.
Electrical Conductivity: High electrical conductance, suitable for electrical use.
Thermal Conductivity: Good thermal conductivity properties.
Low Gas Content: Low gas content and vapor pressure, suitable for vacuum applications.
Disadvantages:
Mechanical Properties: Relatively low mechanical strength compared to other high alloy materials.
Embrittlement: May become brittle at temperatures above 315°C (600°F).
Work Hardening: Tends to exhibit work hardening issues affecting machining capabilities.
Cold Forming: Cold forming can lead to cracking, requiring proper handling techniques.
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