Effect of Cu and Ni Addition on High Temperature Deformation Behavior in Sn-Cu-Ni Solder Alloys

Global concerns over the environmental impact and health effects of the lead-based solders have led to the development of lead-free solder alloys. Further improvements in the reliability of lead-free solder alloys at high temperatures are required for downsizing of electronic components in vehicles. In this work, tensile and creep tests and microstructure analysis were carried out to determine the effect of Bi or Sb addition on high-temperature deformation behavior in Sn-Cu-Ni solder alloys. The addition of Bi or Sb increased the strength of the Sn-Cu-Ni solder alloys. The stress exponent was estimated to be ≥3, indicating that the hightemperature deformation was controlled by dislocation creep. Furthermore, in both the alloys, the stress exponent observed in the low stress region was nearly equal to 3 and discontinuously increased to ≥7 in the high stress region. For Sb addition, the solute atmosphere drag mechanism was observed in the low stress region. ［doi:10.2320/jinstmet.J2017025］や Sn に Bi や Sb を添加したはんだ合

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Effect of Bi or Sb Addition on High Temperature Deformation Behavior in Sn-Cu-Ni Solder Alloys

雅幸

圭児

康平

et al. 2017

J. Japan Inst. Metals and Materials

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Effect of Additive Element on Fatigue Properties of Sn-Sb-Ag High Temperature Lead-Free Solder

Mitsui

Yamamoto

Kawai

et al. 2023

Journal of Japan Institute of Electronics Packaging

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Effect of Cu and Ni Addition on High Temperature Deformation Behavior in Sn-Cu-Ni Solder Alloys

Cited by 2 publications

References 3 publications

Effect of Bi or Sb Addition on High Temperature Deformation Behavior in Sn-Cu-Ni Solder Alloys

Effect of Bi or Sb Addition on High Temperature Deformation Behavior in Sn-Cu-Ni Solder Alloys

Effect of Additive Element on Fatigue Properties of Sn-Sb-Ag High Temperature Lead-Free Solder

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