[AMS-2404C, AMS-2405B, AMS-2433B]
Previously MIL-C-26074. Coatings typically used to provide a hard-ductile, wear-resistant and corrosion-resistant surface for operation in service temperatures up to 1000°F (538°C). Electroless nickel plating provides uniform build-up on complex shapes. Electroless nickel plating, also known as chemical or autocatalytic nickel plating. In contrast to the electroplating technique, electroless (chemical) nickel plating baths work without an external current source. The plating operation is based upon the catalytic reduction of nickel ions on the surface being plated.
Electroless nickel has the following advantages:
The need for complicated jig and anode tooling arrangements are avoided
The coating grows at uniform speed all over the component, wherever it flows. In many cases, subsequent machining will not be required
There are three (3) main types of electroless nickel coatings:
Nickel-phosphorus is generally used for engineering applications. The most widely used electroless nickel is deposited by the catalytic reduction of nickel ions with sodium hypophosphite in acid baths at pH 4, 5ñ5,0 and at a temperature of 85ñ95°C. The deposit contains typically 3 to 13% phosphorus by weight. The alloy obtained is dependent upon the chemical composition of the solution and the operating conditions. The phosphorus content significantly influences its chemical and physical properties in both the as-plated condition and after heat treatment.
A distinction is made between three (3) variants:
Phosphorus content between 3% and 7%. These coatings have excellent high wear resistance. Excellent corrosion resistant in concentrated caustic soda.
Phosphorus content between 9% and 12%. Corrosion protection and abrasion resistance are good enough for most applications. The plating bath works particularly economically.
Phosphorus content between 10% and 13%. The coatings are very ductile and corrosion resistant. They fulfill the highest demands for corrosion resistance against chlorides and simultaneous mechanical stress.
Nickel-boron is very often used in industrial wear applications for its as-plated hardness which is higher than that of nickel-phosphorus. The born content can be varied from 0, 1 to 10%. The reducing agent used is dimethylamine or sodium borohydride depending not the desired alloy composition.
Poly alloys are a combination of nickel, boron or phosphorus and other metal such as cobalt, iron, tungsten, rhenium, or molybdenum. Composite deposits such as electroless nickel-PTFE and electroless nickel-diamond have been developed for special applications.