Tin pest

At 13.2 °C (55.8 °F) and below, pure tin transforms from the silvery, ductile metallicallotropeof β-formwhite tinto the brittle, nonmetallic, α-formgrey tinwith adiamond cubicstructure. The transformation is slow to initiate due to a high activation energy but the presence ofgermanium(or crystal structures of similar form and size) or very low temperatures of roughly −30 °C aids the initiation. There is also a large volume increase of about 27% associated with the phase change to the nonmetallic low temperature allotrope. This frequently makes tin objects (like buttons) decompose into powder during the transformation, hence the nametin pest.^[7]The decomposition willcatalyzeitself, which is why the reaction accelerates once it starts. The mere presence of tin pest leads tomoretin pest. Tin objects at low temperatures will simply disintegrate.

In 1910 British polar explorerRobert Scotthoped to be the first to reach theSouth Pole,but was beaten by Norwegian explorerRoald Amundsen.On foot, the expedition trudged through the frozen deserts of theAntarctic,marching for caches of food and kerosene deposited on the way. In early 1912, at the first cache, there was no kerosene; the cans – soldered with tin – were empty. The cause of the empty tins could have been related to tin pest.^[8]The tin cans were recovered and no tin pest was found when analyzed by the Tin Research Institute.^[9][10]Some observers blame poor quality soldering, as tin cans over 80 years old have been discovered in Antarctic buildings with the soldering in good condition.^{[citation needed]}

The story is often told ofNapoleon's men freezing in the bitterRussian Winter,their clothes falling apart as tin pest ate the buttons. This appears to be anurban legend,as there is no evidence of any failing buttons, and thus they cannot have been a contributing factor in the failure ofthe invasion.^[11]Uniform buttons of that era were generally bone for enlisted, and brass for officers.^[12]Critics of the theory point out that any tin that might have been used would have been quite impure, and thus more tolerant of low temperatures. Laboratory tests of the time required for unalloyed tin to develop significant tin pest damage at lowered temperatures is about 18 months, which is more than twice the length of the invasion.^[8]Nevertheless, some of the regiments in the campaign did have tin buttons and the temperature reached sufficiently low values (below −40 °C or °F).^[11]In the event, none of the many survivors' tales mention problems with buttons and it has been suggested that the legend is an amalgamation of reports of blocks of Banca tin completely disintegrated in a customs warehouse in St. Petersburg in 1868, and earlier Russian reports that cast-in buttons for military uniforms also disintegrated,^[13][10]and the desperate state of Napoleon's army, having turned soldiers into ragged beggars.^[11][14]

With the 2006 adoption of theRestriction of Hazardous Substances Directive(RoHS) regulations in theEuropean Union,California banning most uses oflead,and similar regulations elsewhere, the problem of tin pest has returned,^[15]since some manufacturers which previously used tin/lead alloys now use predominantly tin-based alloys. For example, theleadsof some electrical and electronic components are plated with pure tin. In cold environments, this can change to α-modificationgrey tin,which is notelectrically conductive,and falls off the leads. After reheating, it changes back to β-modificationwhite tin,which is electrically conductive. This cycle can cause electricalshort circuitsand failure of equipment. Such problems can be intermittent as the powdered particles of tin move around. Tin pest can be avoided byalloyingwith small amounts ofelectropositivemetals orsemimetalssoluble in tin's solid phase, e.g.antimonyorbismuth,which prevent the phase change.

• Bronze disease– destruction of bronze artifacts by corrosion
• Gold–aluminium intermetallic– giving rise toPurple plagueorWhite plague,another failure mode for electronic components due to the formation of a crystalline substance.
• Zinc pest– decay of zinc by an unrelated intercrystalline corrosion process.