Impact of rotating magnetic field on the microstructure, thermal properties, and creep behavior during the solidification of Sn–2.0Ag–0.5Cu solder alloy

Faculty Science Year: 2022
Type of Publication: ZU Hosted Pages: 1-12
Authors:
Ahmed Elsaid Hassan Hammad
Journal: Proc IMechE Part L: J Materials: Design and Applications SAGE Publications Ltd Volume:
Keywords : Impact , rotating magnetic field , , microstructure, thermal    
Abstract:
Recently, the application of the magnetic field during the solidification process of alloys has become of great interest, owing to its ability to enhance microstructures. Hence, the present work aims to study the impact of a rotating magnetic field on the microstructure, thermal, and creep properties of the Sn–2.0Ag–0.5Cu (SAC205) alloy during solidification. Results demonstrated that applying a rotary magnetic field homogenized the distribution of intermetallic compounds and improved the microstructure. Additionally, the magnetic field diminished undercooling from 22.5 o C to 11.4 o C, indicating that the magnetic field is very useful in enhancing the microstructure and the alloy’s reliability. The pasty range values for SAC205 and SAC205-B were 7.2 o C and 8.6 o C lower than 11.0 o C for lead-tin, leading to a reduction of the alloy porosity. The SAC205-B alloy exhibited the longest creep rupture time of 158.5% compared to the SAC205. The n values of SAC205-B were higher than those of SAC205. Consequently, the SAC205-B alloy displayed the highest creep resistance and lowest creep rate (28.53%) compared to the SAC205. The Q values were 51.2 and 67.5 kJ/mol for SAC205 and SAC205-B, respectively, controlled by pipe diffusion. This research will provide practical advice for the manufacture of the solder alloy
    
     
 
       

Author Related Publications

  • Ahmed Elsaid Hassan Hammad, "Nano-Lead free solder alloys for electronic packaging and integration", Pushpa Publishing House, 2016 More
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  • Ahmed Elsaid Hassan Hammad, "Evolution of microstructure, thermal and creep properties of Ni-doped Sn–0.5Ag–0.7Cu low-Ag solder alloys for electronic applications", Elsevier, 2013 More
  • Ahmed Elsaid Hassan Hammad, "Microstructure, mechanical properties, and deformation behavior of Sn–1.0Ag–0.5Cu solder after Ni and Sb additions", elsevier, 2012 More
  • Ahmed Elsaid Hassan Hammad, "Mechanical Deformation Behavior of Sn-Ag-Cu Solders with Minor Addition of 0.05", springer, 2014 More

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