Effect of Sb and In additives on thermal and electrical properties of Sn–9Zn–4Bi alternative lead-free solder alloy

Effect of Sb and In additives on thermal and electrical properties of Sn–9Zn–4Bi alternative lead-free solder alloy

Due to the threats of lead to human and environmental health with Tin (Sn)- lead (Pb) solder alloys, efforts to develop lead-free solders continue. To adapt to different soldering areas, especially electronics, the search for alloys that can replace Sn–Pb has increased. The better the solders are in...

Full description

Saved in:
Bibliographic Details
Published in:Materials chemistry and physics Vol. 296; p. 127223
Main Authors: Ata Esener, Pınar, Demirel, Bilal, Aksöz, Sezen
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2023
Subjects:
Electrical conductivity
Lead-free alloys
Melting properties
Thermal conductivity
Thermal conductivity
Electrical conductivity
Melting properties
Lead-free alloys
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Due to the threats of lead to human and environmental health with Tin (Sn)- lead (Pb) solder alloys, efforts to develop lead-free solders continue. To adapt to different soldering areas, especially electronics, the search for alloys that can replace Sn–Pb has increased. The better the solders are in terms of thermal and electrical properties at the junctions, the better the performance of the circuit. In this study, changes in thermal conductivity, electrical conductivity, and melting behavior of 0.5–2 mass percent (wt.%) antimony (Sb) and 0.5–1.5 mass percent (wt.%) indium (In) addition to Sn–9Zn–4Bi alloy were investigated. Measurements of thermal and electrical conductivity with temperature were made by linear heat flow and four-point probe methods, respectively. The melting temperatures (peak temperature) of the alloys produced vary between 477.70 and 484 K (K). When the transition temperature, which is important in solders, is compared to Sn–9Zn–4Bi-[x]Sb (x = 0.5–2 wt%) and Sn–9Zn–4Bi-yIn (y = 0.5–1.5 wt%) alloys, it is the alloy with the lowest value with 13.80 K and the addition of 1 wt% Sb. The thermal and electrical conductivity values increased with the contribution of Sb and In. In addition, temperature coefficients for thermal and electrical conductivity were calculated. Electron and phonon contributions to the thermal conductivity were determined from the Wiedemann-Franz law. It was determined that electron contribution was higher for each alloy. [Display omitted] •The thermal properties of selected lead-free solder alloys were measured by using DSC.•Addition of In element to the Sn–9Zn–4Bi alloy increased thermal conductivity and electrical conductivity.•The contribution of phonons and electrons to thermal conductivity was calculated with the help of the Wiedemann-Franz law.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2022.127223