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Mark Adams of Columbia Chemical discusses an overview of EN plating while helping you understand the benefits of EN and appropriate applications.
Products Finishing
Expert Clinic/Plating
Mark Adams, Technical Account Manager ~ Columbia Chemical
Q. We have a well-established customer offering us an opportunity to get into electroless nickel work with an available line we have. Can you provide an overview of the benefits of electroless nickel plating, including the different categories and the differences and applications of each?
A. Electroless nickel plating is a coating process that deposits a nickel-phosphorus alloy onto a substrate without the use of an external current source. This barrier coating process adheres to a variety of substrates and protects the substrate by sealing it off from the environment, rather than by traditional galvanic or sacrificial action. It is worth noting that electroless nickel plating can also deposit a nickel-boron alloy onto the substrate, but for the purposes of this article, we will limit our focus to the nickel-phosphorus alloy, which is more commonly used throughout the plating industry.
Key benefits of electroless nickel plating include uniform coating, durability and corrosion resistance. Electroless nickel’s coating capability is well-known for depositing an even layer across complex geometries. From a durability standpoint, high hardness and wear resistance are important considerations for industry applications, with the coating having an ability to achieve up to 1100 Vickers (HV) when properly heat-treated. Finally, the amount of nickel-phosphorus alloy in the EN coating has the ability to provide superior corrosion resistance and hold up well in harsh environments. Lubricity is an additional benefit of electroless nickel coatings, and is especially applicable for hydraulic applications, valves and other moving parts where friction reduction is necessary.
From an overall industry perspective, electroless nickel is commonly used in the oil and gas field for drilling equipment, valves and pumps as it offers excellent durability, wear resistance and protection against harsh environmental conditions. In the automotive industry, it is used for engines, fuel systems and additional components that require high wear resistance. A similar workhorse environment where it can be found is in the aerospace industry where electroless nickel’s durability and protection is needed for the extreme conditions to which engines, turbine blades and landing gears are subjected. The process is also used in the medical and electronics industries.
Electroless nickel is broken down into three categories of high, medium and low phosphorus containing deposits. The varying amounts of the phosphorus contained in the deposits dictate the specific wear resistance, hardness and corrosion protection properties of each, which can help determine the suitability for various applications.
Low phosphorus electroless nickel plating falls into the range of 2-5% phosphorus and offers the highest wear resistance and hardness. Performance-wise, it has lower corrosion resistance and contains magnetic properties. It is often suitable for hydraulic cylinders, pistons and other parts that routinely endure abrasive conditions. The hardness of this coating typically ranges from 600-700 Vickers (HV) as deposited, which can increase to approximately 850-1100 Vickers (HV) after a post-plate heat treatment.*
High-phosphorus electroless nickel contains a range of 10-12% phosphorus. Its primary performance feature is its superior corrosion resistance in highly acidic or corrosive (such as marine and chemical processing) environments. It has a lower hardness value (only 450-525 Vickers HV as deposited), but can be heat-treated after plating to improve hardness properties (to 850-950 Vickers HV).
When looking at the three categories of electroless nickel, it is also helpful to consider the end-use environment of your application from an acidic versus alkaline standpoint to further determine the phosphorus content needed. For highly acidic environments, high phosphorus electroless nickel is the preferred choice based on its corrosion-resistant properties. For alkaline or mildly acidic environments, medium phosphorus electroless nickel is a good and versatile choice, offering the right balance of corrosion resistance, hardness, and cost-effectiveness. Medium-phosphorus is suitable for a broad range of industrial applications where exposure to alkaline substances is common. Low-phosphorus coatings offer good performance in alkaline conditions, but are less effective in acidic environments.
To summarize, electroless nickel plating provides a uniform barrier coating which can offer strong wear resistance, excellent corrosion resistance and enhanced hardness, all of which make it a highly desirable choice in various industrial applications. These performance attributes will vary based on the amount of phosphorus in the coating, and heat treatment can be used to further enhance the hardness of electroless nickel coatings. Reviewing the performance requirements, applications and environmental factors the coating will be subject to, as well as selecting the phosphorus content that will meet those specific needs will help you ensure the protection and longevity of your finished components.
This article was published in the August 2024 issue of Products Finishing magazine.