Phosphor bronze is a member of the family of copper alloys. It is composed of copper that is alloyed with 0.5–11% of tin and 0.01–0.35% phosphorus, and may contain other elements to confer specific properties. Alloyed tin increases the corrosion resistance and strength of copper, while phosphorus increases its wear resistance and stiffness. These alloys are notable for their toughness, strength, low coefficient of friction, and fine grain. The phosphorus reduces the viscosity of the molten alloy, which makes it easier and cleaner to cast and reduces grain boundaries between crystallites. It was originally formulated by the Belgian Georges Montefiore-Levi.
Industrial uses
Phosphor bronze is used for springs, bolts, bushings and bearings, electrical switches with moving or sliding parts, dental bridges, the reed component of organ pipes and various other products or assemblies where resistance to fatigue, wear, and corrosion are required. Phosphor bronze comes in a wide array of standard alloys, including nonferrous spring alloys, free-machining phosphor bronze and bearing bronze. The combination of good physical properties, fair electrical conductivity, and moderate cost make phosphor bronze, available in standard round, square, flat, and special format wire desirable for many springs, electrical contacts, and a wide variety of wire forms where the desired properties do not require the use of more expensive beryllium copper. Phosphor bronze is also used in cryogenics. In this application, its combination of fair electrical conductivity and low thermal conductivity allows the making of electrical connections to devices at ultra low temperatures without adding excessive heat.
can be alloyed with phosphorus to better withstand oxidizing conditions. This alloy has application as thick corrosion-resistant overpack for spent nuclear fuel disposalin deep crystalline rocks.
Phosphor bronze is preferred over brass for cymbals because of its greater resilience, leading to broader tonal spectrum and greater sustain. Phosphor bronze is one of several high copper content alloys used as a substitute for the more common "yellow" or "cartridge" types of brass to construct the bodies and bells of metal wind instruments. Examples of instruments constructed using high copper alloys occur among members of the brass instrument family and one member of the reed instrument family, saxophones. In addition to the distinctive appearance provided by the reddish-orange hue of high copper alloys, they are purported by some instrument designers, sellers, and players to provide a broader harmonic response spectrum for a given instrument design. The Yanagisawa 902/992 model saxophones have bodies of phosphor bronze, in contrast to the brass 901/991 models. Some instrument strings for acoustic guitars, mandolins and violins are wrapped with phosphor bronze. Some harmonicareeds are made of phosphor bronze, such as those by Suzuki Musical Instrument Corporation and Bushman Harmonicas. The reed component of reed-type organ pipes is usually made of phosphor bronze owing to its high wear and low deformability under conditions of constant vibration when producing sound. Some snare drums are constructed with phosphor bronze.
Variants
Further increasing the phosphorus content leads to formation of a very hard compound Cu3P, resulting in a brittle form of phosphor bronze, which has a narrow range of applications. Around 2001, the Olin Corporation developed another alloy for use in electrical and electronic connectors which they referred to as "phosphor bronze". Its composition was as follows:
Zinc – 9.9%
Tin – 2.2%
Iron – 1.9%
Phosphorus – 0.03%
Copper – 85.97%
When assessed in strictly metallurgical terms it is not a phosphor bronze, but a form of iron-modified tin brass.