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A technician takes a sample of a metal plating solution.

ELECTROLESS NICKEL

What is Electroless Nickel Plating?

Electroless nickel (EN) plating is a method of depositing a nickel alloy suspended in an aqueous solution onto a substrate. The process is made up of a series of precisely timed baths to clean, rinse, activate, and plate the wrenches. Electroless means it is an autocatalytic, or self-activating, chemical reaction where the plating thickness is controlled primarily by bath chemistry and soak duration rather than electrical current. The end result of the EN process is a tightly controlled, highly uniform plating, which offers many advantages over chrome and other finishes.
Diagram of a crowfoot wrench showing uniform electroless nickel plating compared to uneven chrome plating.
EN’s uniform coverage results in precise, controlled tolerances of the entire tool.
We operate our own EN line at our Grand Rapids, Michigan, headquarters. Here, we plate our USA-made wrenches including angle head and crowfoot wrenches. This allows us to control all aspects of the process to ensure extremely consistent, accurate, and intentional results. Tekton is one of the only companies in the world that uses the EN plating on hand tools.
Close-up of a crowfoot wrench with a smooth, satin electroless nickel finish.
Our EN products are abrasive-blasted before the plating process to create a finely textured satin finish and to increase plating adhesion.

Conventional Chrome Plating

Unlike EN, chrome plating relies on electrical current to deposit multiple layers of nickel beneath a thin, protective layer of chrome. This process imparts excellent corrosion protection, hardness, and abrasion resistance to the tools. However, the thickness of the plating can vary based on the tool's shape and its position in the plating bath. These factors can alter the current density in uneven ways. For instance, sharp corners and protruding shapes accumulate more buildup of plating material, while intricate areas like blind holes or internal cavities receive less coverage. The result can be slight sizing variation and small areas that remain unprotected. Despite these inherent variations, chrome-plated tools remain a solid choice, offering long-lasting performance and durability.
Close-up of a crowfoot wrench with a glossy chrome finish.
Most products with chrome plating have a smooth, shiny finish. This is a result of the high polished underlying substrate.

Environmental Impact

Most chrome plating uses hexavalent chromium, a chemical that requires very careful handling and disposal. A less common chrome plating method uses trivalent chromium, which is safer. Electroless nickel does not use any kind of chromium, and the other materials used in EN are generally safe when handled properly, as any industrial chemicals should be. While all forms of plating can be completed without safety issues or environmental harm, the additional steps required for hexavalent chrome plating are resource-intensive and ideal to avoid when possible.

Why Does Electroless Nickel Have a Golden Hue?

The warm golden hue is due to the natural appearance of the nickel element combined with a small amount of phosphorus. The phosphorus comes from the sodium hypophosphite solution, which is used as the reduction agent in the chemical reaction.
Crowfoot wrench with electroless nickel plating on chrome extension and an angle wrench showing a golden hue.

How Corrosion-Resistant is Electroless Nickel Plating?

EN provides excellent corrosion resistance against common chemicals, solvents, and humidity. It will hold up to normal use in garages, mobile services, and shop environments without issues. However, like any protective plating, it may become susceptible to corrosion when exposed to extreme environments for extended periods of time.

In Summary, Why Do We Use Electroless Nickel Plating on Our USA-Made Wrenches?

  1. The EN process results in a highly uniform coating on all surfaces of the tool. This makes it an ideal solution for parts with complex geometries that demand highly precise tolerances.
  2. EN provides excellent corrosion protection that performs well in common work environments.
  3. EN has a low environmental impact compared to hexavalent chrome plating because it doesn’t require the use and disposal of hexavalent chromium.