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无铅锡基钎料合金设计和合金相图及其计算 被引量:12

Design of lead-free solder alloy and alloy phase diagram calculation
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摘要 阐述了无铅钎料合金设计的原则,讨论了合金相图及其计算在无铅锡基钎料合金设计中的作用。利用相图计算技术筛选了可能代替Pb Sn共晶钎料合金的Sn Zn In三元(x(Zn)<0.11,x(In)=0.10~0.14)和Sn Zn In Ag四元(x(Sn)=0.800,x(In)=0.090,x(Zn)=0.075,x(Ag)<0.049)无铅锡基钎料合金。初步讨论了用相图计算技术在富Sn四元Sn Zn In Ag无铅钎料合金基础上,添加Bi,Sb等低熔点金属和微量Ce,La等稀土元素以降低贵金属In和Ag的含量,进一步提高无铅锡基多元合金钎料的综合性能和性能价格比。 The principles for lead-fsee solder alloy design and the importance of phase diagram study as well as the calculation of phase diagram(CALPHAD) approach in the lead-free solder alloy design are discussed. Based on CALPHAD approach two potential lead-free solder alloys, i.e., the Sn-Zn-In(x(Zn)<0.11, x(In)=0.100.14)ternary alloy and the Sn-Zn-In-Ag(x(Sn)=0.800, x(In)=0.090, x(Zn)=0.075, x(Ag)<0.035)quaternary alloy are recommended as lead-free solder alloy instead of the Pb-Sn eutectic solder alloy. The further work for decreasing the content of In and Ag in Sn based Pb-free multi-component alloy with excerlent properties is brief discussed.
作者 乔芝郁 谢允安 曹战民 袁文霞 孙勇 祁更新
机构地区 北京科技大学物理化学系 昆明理工大学材料冶金工程学院
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第11期1789-1798,共10页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目(50071009) 云南省科技攻关计划资助项目(2002GG07)
关键词 钎料合金 无铅钎料 相图 相图计算 solder alloy Pb-free solder phase diagram CALPHAD
分类号 TG113.14 [金属学及工艺—物理冶金]
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参考文献28

  • 1Zeng K, Kivilahti J K. Use of multicomponent phase diagrams for predicting phase evolution in solder/conductors systems[J]. J Electronic materials, 2001, 30(1): 35-44.
  • 2Jin S, McCormack M. Substitutes for Pb-containing solders: materials issues and recent development[A]. Sohn H Y. Metallurgical Processes for the Early Twenty-first Century: Proceedings of the Second International Symposium on Metallurgical Processes for t
  • 3Hiemenz P C. Principles of Colloid and Surface Chemistry[M]. New York: Marcel Dekker Inc, 1977. 273.
  • 4Massalski T B, Okamoto H, Subramanian P R, et al. Binary Phase Diagrams[M]. 2rd edi. Ohio, USA: ASM Publication, 1990. 94-3416.
  • 5Loomans M E, Vaynman S, Ghosh G, et al. Investigation of multi component lead-free solders[J]. Journal of Electronic Materials, 1994, 23(8): 741-749.
  • 6Saunders N, Miodownik A P. CALPHAD(Calculation of Phase Comprehensive Guide)[M]. UK: Elsevier Science Ltd, 1998. 1-463.
  • 7Winterbottom W. Converting to lead-free solders: An automotive industry perspective[J]. JOM, 1993, 45(7): 20-27.
  • 8Lee B J, Lee H M. Alloy design of Sn-Ag-In-Bi-Sb solder system using thermodynamic calculations[A]. Frear R K, Sastry S M L, Murty K L, et al. Design and Reliability of Solders and Solder Interconnections[C]. New York: The MMM Society, 1997. 129-136.
  • 9Chen S L, Chang A. Panda Software[R]. New Version, USA: Compu Therm, LLC, 2000.
  • 10Ohnuma I, Liu X J, Ohtani H, et al. Thermodyna-mic data base for microsoldering alloys[A]. Grassie K. Functional Materials (Vol.13)[C]. New York: Wiley-VCH Euromat-99, 2000. 69-75.

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中国有色金属学报
2004年 第11期

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