Tin is an essential element in today’s quality of life, used in a diverse range of products. Most products use very small quantities of tin, with the most important applications being in electronics, transport, and packaging.

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Tin has long been used in alloys with lead as solder, in amounts 5 to 70% w/w. Tin with lead forms a eutectic mixture at the weight proportion of 61.9% tin and 38.1% lead (the atomic proportion: 73.9% tin and 26.1% lead), with melting temperature of 183 °C (361.4 °F) . Such solders are primarily used for joining pipes or electric circuits. Since the European Union Waste Electrical and Electronic Equipment Directive (WEEE Directive) and Restriction of Hazardous Substances Directive came into effect on 1 July 2006, the lead content in such alloys has decreased. Replacing lead has many problems, including a higher melting point, and the formation of tin whiskers causing electrical problems. Tin pest can occur in lead-free solders, leading to loss of the soldered joint. Replacement alloys are rapidly being found, although problems of joint integrity remain.

Tin chemicals used in industry fall into two main classes: inorganic tin chemicals and organic tin chemical compounds which contain at least one bond between tin and carbon. Compounds containing an organic anion in the molecule, but not containing tin-carbon bonds, are here referred to as inorganic compounds. The applications of these two classes of compound tend to be separate although there is some overlap in a few cases. In recent years, the consumption of tin has fallen somewhat, but tin chemicals continue to be an important outlet for the metal and with some recent developments, for example in the field of fire retardants, this area of use may show some growth.

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