The metal and its alloys

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Even silver that has been fully work-hardened, either by rolling or forging, gradually recrystallizes, even at room temperature. This greatly softens the metal, making it susceptible to scratching and marring. To maintain hardness, therefore, other metals are added to form alloys that are harder, stronger, and less prone to fatigue.

The best-known copper-silver alloy is sterling, which is 92.5 percent silver and 7.5 percent copper. (In England sterling silver is traditionally identified by the hallmark of a lion passant.) Coin silver is an alloy of 90 percent silver and 10 percent copper. For jewelry and ornaments, 85–90 percent silver (and the balance copper) is frequently used. Dental alloys of 60–70 percent silver, 18–25 percent tin, 2–14 percent copper, and 0.5–2 percent zinc are amalgamated with varying quantities of mercury to form the filling materials for cavities in teeth.

Silver and alloys of silver and copper, although stable in air, tarnish in the presence of sulfur. In order to improve tarnish resistance, silver alloys with at least 40 percent palladium added are created for telephone relays, circuit breakers, and other electrical switching equipment. In order to obtain the lustre and corrosion resistance of silver on other metals and alloys, silver electroplating is practiced. Cyanide-based baths are most commonly employed.

Because silver has the highest electrical conductivity of all metals, it is used in alloyed form for electrical contacts. Palladium and nickel improve the metal’s chemical resistance to oxidation and sulfidation as well as its resistance to corrosion.

Silver brazing fillers are the most frequently used precious-metal fillers. They are suitable for brazing nearly all steels and nonferrous metals except aluminum, magnesium, and titanium. A typical brazing alloy composition is 50 percent silver, 34 percent copper, and 16 percent zinc.

Chemical compounds

Between 25 and 40 percent of industrial silver is consumed in the production of the photosensitive chemicals silver chloride and silver bromide. These silver salts are prepared by adding sodium chloride or sodium bromide to a very pure solution of silver nitrate. The highly insoluble silver chloride or silver bromide then precipitates from solution. All processing takes place in the absence of any light.

Silver oxides (both Ag2O and AgO) serve as the cathodic materials in silver-zinc primary and secondary (i.e., rechargeable) batteries. The high energy density of the primary batteries (as measured by available electrical energy per unit weight) is responsible for their employment as miniature power cells for cameras and timepieces.

James Edward Hoffmann