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Effect of Sb and Zn Addition on the Microstructures and Tensile Properties of Sn–Bi-Based Alloys

Akira Yamauchi, Masashi KUROSE

2022Materials19 citationsDOIOpen Access PDF

Abstract

The tensile behavior of Sn-Bi-Cu and Sn-Bi-Ni alloys has been widely investigated. Reportedly, the addition of small amounts of a third element can refine the microstructures of the eutectic Sn-58mass% Bi solder and improve its ductility. However, the superplasticity mechanism of Sn-based alloys has not been clearly established. Therefore, in this study, the effects of Sb and Zn addition on the microstructures and tensile properties of Sn-Bi-based alloys were investigated. The alloys were subjected to tensile tests under various strain rates and temperatures. We found that Zn- and Sb-added Sn-Bi-based alloys demonstrated superplastic deformation at high temperatures and low strain rates. Sb addition significantly affected the elongation of the Sn-Bi-Sb alloys because the metal dissolves in both the primary Sn phase and the eutectic Sn-Bi matrix. The segregation of Zn and formation of needle-like Zn particles at the eutectic Sn-Bi phase boundary affected the superplastic deformation of the alloys. The deformation of the Sn-40Bi-based alloys at high temperatures and low strain rates led to dynamic recovery, dynamic recrystallization, and/or grain boundary slip because of the accumulation of voids.

Topics & Concepts

SuperplasticityMaterials scienceEutectic systemMetallurgyMicrostructureUltimate tensile strengthDynamic recrystallizationGrain boundaryStrain rateGrain Boundary SlidingDuctility (Earth science)AlloyDeformation mechanismDeformation (meteorology)Recrystallization (geology)ElongationTensile testingSlip (aerodynamics)Composite materialCreepHot workingThermodynamicsBiologyPaleontologyPhysicsElectronic Packaging and Soldering TechnologiesAluminum Alloy Microstructure PropertiesMetallurgy and Material Forming
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