利用颗粒增强原理研制了新型Ag颗粒增强SnCu基复合钎料,研究了Ag颗粒不同含量对复合钎料性能影响.结果表明:当Ag含量(体积分数)为5%时,复合钎料铺展面积最大,润湿角最小,钎焊接头蠕变寿命最长,比基体钎料提高23倍.
参考文献
| [1] | L.N.Brush,R.N.Gruge,The effect of an electric current on rod-eutectic solidification in Sn-0.9wt.%Cu alloys,Materials Science and Engineering,A238(1),176(1997) |
| [2] | Y.G.Lee,J.G.Duh,Phase analysis in the solder joint of Sn-Cu solder/IMC/Cu substrate,Materials Characterication,42(2),143(1999) |
| [3] | N.Tamura,R.Ohshita,M.Fujimoto,Study on the anode behavior of Sn and Sn-Cu alloy thin-film Electrodes.Journal of Power Sources,107(1),48(2002) |
| [4] | N.Kaneko,M.Seki,S.Arai,S.Knecht,L.R.Fox,Sn-Cu alloy electroplating from acid sulfate baths for Pb-free solder,Electrochemistry,69(5),329(2001) |
| [5] | S.Dhabal,T.B.Ghosh,On the interfacial composition and microstructure of vapor deposited Bi-layer thin film of Sn-Cu on the glass substrate,Applied Surface Science,211(1),13(2003) |
| [6] | C.Hunt,D.Lea,Solderability of lead-free alloys,in:Proceedings of Apex 2000(Long Beach,CA.March 2000)p.1238~1245 |
| [7] | J.S.Hwang,Solder Materials,SMT,15(7),44(2001) |
| [8] | F.Guo,J.P.Lucas,K.N.Subramanian,Creep behavior in Cu and Ag particles reinforced composite and eutectic Sn3.5Ag and Sn-4.OAg-0.5Cu non-composite solder joints,Journal of Materials Science,12(1),27(2001) |
| [9] | A.Z.Miric,A.Grusd,Lead-free alloys,Soldering&Surface Mount Technology,10(1),19(1998) |
| [10] | K.Suganuma,Advances in lead-free electronics soldering,Current Opinion in Solid State and Materials Science,5,55(2001) |
| [11] | F.Hua,J.Glazer,Lead-free solders for electronic assembly,Design and Reliability of Solders and Solder Intereonections,Edited by R.K.Mahidhara and D.R.Frear(New York,The Minerals,Metals & Materials Society,1997)p.65 |
| [12] | F.Guo,S.Choi,J.P.Lucas,K.N.Subramanian,Effect of solder reflow and wettability,microstructure and mechanical properties,Journal of Electronic Materials,29(10),1241(2000) |
| [13] | LI Xiaohui,XIE Jingpei,GUAN Chenghong,ZHU Yaomin,High-temperature creep performance of particlereinforced ZA27 alloy composites,Journal of Luoyang Institute of Technology,21(1),14(2000)(李晓辉,谢敬佩,关承红,祝要民,颗粒增强的ZA27基复合钎料的高温蠕变特性,洛阳工学院学报,21(1),14(2000)) |
| [14] | H.Mavoori,S.Jin,Significantly enhanced creep resistance in low-melting-point solders through nanoscale oxide dispersions,Applied Physics Letters,73(16),2290(1998) |
| [15] | F.Guo,J.P.Lucas,K.N.Subramanian,Creep behavior in Cu and Ag particles-reinforced composite and eutectic Sn-3.5Ag and Sn-4.0Ag-0.5Cu non-composite solder joints,Journal of Materials Science,12,1127(2001) |
| [16] | S.Choi,J.Lee,F.Guo,T.R.Bieler,K.N.Subamanian,J.P.Lucas.Creep properties of eutectie Sn-Ag solder and Sn-Ag composite solders containing intermetallic paxticles,J.Electronic Materials,114(5),512(2003) |
| [17] | SHI Yaowu,YAN Yanfu,LIU Jianping,XIA Zhidong,CHEN Zhigang,LEI Yongping,LI Xiaoyan,Metal particles enhancement tin-lead based composite solder and its fabrication,National patent,1358606(2001)(史耀武,闫焉服,刘建萍,夏志东,陈志刚,雷永平,李晓延,金属颗粒增强的锡铅基复合钎料及其制备方法,国家专利,1358606(2001)) |
| [18] | FENG Duan,Metal Physics,Vol.3(Beijing,Science Press,1999)p.580(冯端,金属物理学,第三卷(北京,科学出版社,1999)p.580) |
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