Galvanic action occurs when two electrochemically dissimilar metals are in contact and a conductive path occurs for electrons and ions to move from one metal to the other. One metal corrodes as its ions are deposited onto the other metal. Therefore, it is important to keep these dissimilar metals insulated from each other to prevent accelerated corrosion. Generally, water, and especially salt water, serve as the conductive path between two metals so it is important to keep dissimilar metals separated in wet conditions.
Cathodes are noble, or stable, metals that are not prone to corrosion. Examples are gold, silver, nickel, and titanium. Jewelery is made from these materials because it does not corrode rapidly.
Anodes are less stable and are more susceptible to corrosion. Examples include zinc, galvanized steel, and aluminum.
Since anodes and cathodes will react with each other, it is very important to keep these metals apart. For instance, if zinc was in contact with silver and this was submerged in a salt-water solution, the zinc ions would be transferred to the silver and the zinc would corrode.
The scale at left shows the relative location, in the galvanic series, of many common metals. When two metals are close to each other on the scale, they have a lessor tendency to corrode. However, there are many factors that can affect the corrosion resistance, including the alloy of the metal, and the environment. The scale shown to the left is based on the metals being submerged in seawater and should be used only as a general outline.
The galvanic scale demonstrates that if a stainless steel element was fastened in place using galvanized (zinc) metal fasteners, the galvanized fasteners would rapidly corrode as its ions move toward the stainless steel, which would cause the stainless steel element to come loose.
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