Sn-In和Pb-In钎料的低温力学性能

Proceedings 3rd International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces Pub Date : 1997-03-09 DOI:10.1109/ISAPM.1997.581258

W. Jones, Y.Q. Liu, M. Shah

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引用次数: 6

摘要

使用高温超导体(HTS)的应用越来越多，对增加电子组件可以工作的温度范围产生了新的要求。通常，铅锡共晶焊料在-150/spl℃以下失去延展性。本文对低温应用的新型焊料配方进行了评价。采用单轴拉伸试验对PbIn和Sn-In钎料在-200 ~ 100 spl℃温度范围内的力学性能进行了测试，得到了如下结果:两种焊料的强度随温度的降低几乎呈线性增加。然而，Sn-In合金钎料在低温下的强度明显高于Pb-In (50 Pb/50 In)钎料。两种焊料的总伸长率均随温度的降低而降低，且在温度大于50℃时均表现出超塑性。所有测试焊料的均匀伸长率在-50/spl度/C以下也增加了一倍。研究了焊料的变形和断裂过程，提出了其断裂机理。

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Mechanical properties of Sn-In and Pb-In solders at low temperature

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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Proceedings 3rd International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces

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