The growing number of applications using high temperature superconductors (HTS) has created new requirement for increasing the range of temperatures in which electronic assemblies can operate. Typically, eutectic lead-tin solders lose ductility below -150/spl deg/C. In this paper, new solder formulations were evaluated for cryogenic applications. The mechanical properties of PbIn and Sn-In solders were determined over the temperature range -200/spl deg/C to 100/spl deg/C using the uniaxial tensile test, with the following results. The strength of two types of solder increases almost linearly with decreasing temperature. However, it was evident that the Sn-In alloying solders possess higher strength than the Pb-In (50 Pb/50 In) solder at low temperatures. For both types of solder, the total elongation decreases with decreasing temperature, and all of the solders displayed superplasticity at temperatures greater than 50/spl deg/C. There was also doubling of the uniform elongation below -50/spl deg/C for all of the tested solders. The deformation and fracture processes of the solders were investigated, and their fracture mechanism is proposed.
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