Chrome Plating Vs. Nickel Plating: Their Differences Explained

According to Connect2Local:

It is typical for most steel materials to undergo some type of plating process to slow down corrosion. Chrome plating and nickel plating are two of the most common plating processes used by industrial businesses due to their durability and affordability. Porter-Guertin Co. is the leading provider of nickel and chrome plating services in Cincinnati, OH. Their specialists have several years of experience in providing reliable and efficient metal finishing services for any type of business. They’re here to explain the differences between chrome plating and nickel plating.

Nickel Plating

Nickel plating is widely utilized for its traditional looks and cheaper price over chrome plating. These two factors have made it more commonplace in both industrial and residential settings. However, there are two types of nickel plating: conventional electrolytic plating and electroless plating. The former is one of the most affordable processes being offered today. It offers a high level of corrosion resistance for steel materials but has a muted finish that tends to wear out and tarnish over time. Electroless nickel plating, on the other hand, is just as durable and corrosion resistant but has a nickel-phosphorus coating that leaves a glossier finish and sturdy texture.

Chrome Plating

Chrome plating leaves a notable iridescent blue hue on the steel surface. It is usually chosen for its customizable finish and durability. As with nickel plating, steel surfaces with chrome plating won’t corrode easily but are more resistant to abrasion. Chrome plating is commonly seen on a lot of automotive parts because of its attractive finish. It is also generally more expensive than nickel plating processes. Despite this fact, it has grown in popularity among many customers due to its attention-grabbing, mirror-like appearance. If you do decide to go with this finish, beware that it is susceptible to showing fingerprints but, unlike nickel, it won’t tarnish easily.

Both processes are highly effective in adding reinforcement and protection on steel surfaces while providing them with an appealing finish.

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