铟-铋-硒合金在低温储存过程中的相变和机械特性

Materials Pub Date : 2024-07-25 DOI:10.3390/ma17153669

Jiye Zhou, X. Tan, S. McDonald, K. Nogita

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引用次数: 0

摘要

In-Bi-Sn 低温焊料合金被视为低温和太空探索应用的潜在候选材料。本研究调查了两种不同成分的机械性能和微观结构的变化：In15wt%Bi35wt%Sn 和 In30wt%Bi20wt%Sn 暴露于低温环境（-20 °C）10 个月后的机械性能和微观结构的变化。所有测试样品的极限拉伸强度都有所提高，而 In30wt%Bi20wt%Sn 的破坏伸长率则有所下降。通过扫描电子显微镜（SEM）和电子反向散射衍射（EBSD）确定了微观结构的变化。考虑到合金中存在的三相（BiIn2(Sn)、γ-InSn4(Bi)和β-In3Sn(Bi)）的不同比例和组成及其对机械性能的影响，对这种低温环境的影响进行了描述。

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Phase Transformations and Mechanical Properties in In–Bi–Sn Alloys as a Result of Low-Temperature Storage

The In–Bi–Sn low-temperature solder alloys are regarded as potential candidates for cryogenic and space exploration applications. This study investigates the variations in the mechanical properties and microstructures of two different compositions: In15wt%Bi35wt%Sn and In30wt%Bi20wt%Sn, after exposure to a low-temperature environment (−20 °C) for 10 months. An increase in the ultimate tensile strength was observed across all the tested samples and a decrease in elongation to failure was observed in In30wt%Bi20wt%Sn. Changes in the microstructure were identified through scanning electron microscopy (SEM) and electron backscatter diffraction (EBSD). The impact of this low-temperature environment is described, considering the varying proportions and compositions of the three phases (BiIn2(Sn), γ-InSn4(Bi), and β-In3Sn(Bi)) present within the alloys and their contribution to the mechanical properties.

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Materials

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