### Tin Pest: Elusive Threat in Lead-Free Soldering?Tin Pest: Elusive Threat in Lead-Free Soldering?

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 Subject Domain (in DDC) Technology ♦ Engineering & allied operations Subject Keyword Tin pest ♦ Allotropic transformation ♦ Tin pest incidence and kinetics ♦ Cold temperature service ♦ Environmental effects on tin ♦ Quality Control, Reliability, Safety and Risk ♦ Structural Mechanics ♦ Mechanics ♦ Characterization and Evaluation of Materials ♦ Tribology, Corrosion and Coatings ♦ Materials Science Abstract Tin pest is the result of an allotropic transformation of tin from its β phase to its α phase at temperatures below 13 °C. This transformation is accompanied by a change in density from 7.31 to 5.77 g/cm$^{3}$. The resulting expansion usually results in degradation of the affected part, as the α phase material is mechanically weak and over time becomes little more than a gray powder. The tin pest effect is cumulative unless the sample in question is exposed to temperatures above 70 °C or so, where some reversion back to white tin has been observed. However, by this point a tin sample’s physical integrity may have been destroyed by the partial β to α transformation. The transformation to α tin is inhibited strongly by soluble alloying elements such as bismuth and antimony at concentrations of about 0.5%, or lead at concentrations of about 5%. Hence, tin pest is generally observed only in quite pure tin. However, nearly pure tin alloys may become common. For example, the advent of the European Union’s RoHS law, which essentially eliminates lead from solder, has spawned lead-free alloys that can be almost pure tin and may be at risk of tin pest. This risk has caused some concern over the long-term stability of emergent, lead-free solders during low temperature service. This overview article is written in light of this concern. ISSN 15477029 Age Range 18 to 22 years ♦ above 22 year Educational Use Research Education Level UG and PG Learning Resource Type Article Publisher Date 2010-10-19 Publisher Place Boston e-ISSN 18641245 Journal Journal of Failure Analysis and Prevention Volume Number 10 Issue Number 6 Page Count 7 Starting Page 437 Ending Page 443