Improving tensile and fatigue properties of Sn–58Bi/Cu solder joints through alloying substrate

To eliminate the Bi segregation and interfacial embrittlement of the SnBi/Cu joints, we deliberately added some Ag or Zn elements into the Cu substrate. Then, the reliability of the SnBi/Cu–X (X = Ag or Zn) solder joints was evaluated by investigating their interfacial reactions, tensile property, a...

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Veröffentlicht in:	Journal of materials research 2010-02, Vol.25 (2), p.303-314
Hauptverfasser:	Zhang, QingKe, Zou, HeFei, Zhang, Zhe-Feng
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Sprache:	eng
Schlagworte:	Applied and Technical Physics Biomaterials Inorganic Chemistry Materials Engineering Materials Science Microelectronics Nanotechnology Soldering
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container_title	Journal of materials research
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creator	Zhang, QingKe Zou, HeFei Zhang, Zhe-Feng
description	To eliminate the Bi segregation and interfacial embrittlement of the SnBi/Cu joints, we deliberately added some Ag or Zn elements into the Cu substrate. Then, the reliability of the SnBi/Cu–X (X = Ag or Zn) solder joints was evaluated by investigating their interfacial reactions, tensile property, and fatigue life compared with those of the SnBi/Cu and SnAg/Cu joints. The experimental results demonstrate that even after aging for a long time, the addition of the Ag or Zn elements into the Cu substrate can effectively eliminate the interfacial Bi embrittlement of the SnBi/Cu–X joints under tensile or fatigue loadings. Compared with the conventional SnAg/Cu joints, the SnBi/Cu–X joints exhibit higher adhesive strength and comparable fatigue resistance. Finally, the fatigue and fracture mechanisms of the SnBi/Cu–X solder joints were discussed qualitatively. The current findings may pave the new way for the Sn–Bi solder widely used in the electronic interconnection in the future.
doi_str_mv	10.1557/JMR.2010.0035
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Then, the reliability of the SnBi/Cu–X (X = Ag or Zn) solder joints was evaluated by investigating their interfacial reactions, tensile property, and fatigue life compared with those of the SnBi/Cu and SnAg/Cu joints. The experimental results demonstrate that even after aging for a long time, the addition of the Ag or Zn elements into the Cu substrate can effectively eliminate the interfacial Bi embrittlement of the SnBi/Cu–X joints under tensile or fatigue loadings. Compared with the conventional SnAg/Cu joints, the SnBi/Cu–X joints exhibit higher adhesive strength and comparable fatigue resistance. Finally, the fatigue and fracture mechanisms of the SnBi/Cu–X solder joints were discussed qualitatively. 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Finally, the fatigue and fracture mechanisms of the SnBi/Cu–X solder joints were discussed qualitatively. The current findings may pave the new way for the Sn–Bi solder widely used in the electronic interconnection in the future.</abstract><cop>New York, USA</cop><pub>Cambridge University Press</pub><doi>10.1557/JMR.2010.0035</doi><tpages>12</tpages></addata></record>
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subjects	Applied and Technical Physics Biomaterials Inorganic Chemistry Materials Engineering Materials Science Microelectronics Nanotechnology Soldering
title	Improving tensile and fatigue properties of Sn–58Bi/Cu solder joints through alloying substrate
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