Metal Finishing Guide Book


Issue link:

Contents of this Issue


Page 317 of 843

plating processes, procedures & solutions SILVER PLATING BY ALAN BLAIR USFILTER ELECTRODE PRODUCTS, UNION, N.J.; WWW.USFILTER.COM It is not surprising that silver was one of the first metals to be deposited by electroplating during the early development of this manufacturing technique in the mid-19th century. Decorative application of a silver finish on hollowware and flatware fabricated from less-expensive metals was immediately a great commercial success. The formulation of a typical, decorative silver-plating solution in use today is remarkably similar to that patented by the Elkington brothers in 1840. Despite the environmental, health, and safety issues associated with cyanide salts, cyanide-based silver-plating solutions offer the most consistent deposit quality at the lowest cost. This is particularly true for decorative applications. Although commercially viable, noncyanide processes have recently been made available to electroplaters. Electroplated silver has many applications beyond decorative finishing. Its use on electronic components and assemblies has increased significantly during the past two decades. Recent application of silver to waveguides used in cellular telecommunications systems has added to its established use in packaging of integrated circuits. CYANIDE SYSTEMS A typical, traditional silver-plating solution suitable for rack work would be as follows: Silver as KAg(CN)2 15-40 g/L (2.0-5.5 oz/gal) Potassium cyanide (free) Potassium carbonate (min) Temperature Current density 12-120 g/L 15 g/L 20-30ºC 0.5-4.0 A/dm2 (1.6-16 oz/gal) (2 oz/gal) (70-85ºF) (5-40 A/ft2) Barrel plating usually results in much greater drag-out losses and lower current density during operation so lower metal concentrations are desirable. A typical formula would be: Silver as KAg(CN)2 5-20 g/L (0.7-2.5 oz/gal) Potassium cyanide (free) 25-75 g/L (3.3-10.0 oz/gal) Potassium carbonate (min) Temperature Current density 15 g/L 15-25ºC 0.1-0.7 A/dm2 (2 oz/gal) (60-80ºF) (1.0-7.5 A/ft2) The formulas above will produce dull, chalk-white deposits that are very soft (<100 Knoop). Additions of grain refiners or brighteners will modify deposits, causing them to become lustrous to fully bright. 310

Articles in this issue

Links on this page

view archives of Metal Finishing Guide Book - 2013