摘 要Sn-Bi合金作为低温无铅钎料,在温度要求较低的封装中具有很大的优势,但是Bi本身脆性很大,对钎料的力学性能带来不利影响。本文主要研究添加合金元素Ag、Cu对Sn-Bi钎料合金力学性能的影响。文中从钎料合金的微观组织、力学性能及焊接接头的界面特性等几个方面来进行比较分析。86382
第一步,本文对钎料合金的室温组织进行观察,分析发现添加1%的Ag后,合金组织中的Sn相和Bi相均明显细化,并析出弥散分布的颗粒状金属间化合物Ag3Sn;而添加0。5%的Cu后,合金组织中的Bi相虽然细化,但不明显,并出现弥散分布的颗粒状金属间化合物Cu6Sn5。第二步,本文采用万能拉伸试验机对钎料合金在室温、100℃、125℃三个温度下的力学性能进行了测试和分析,实验结果表明添加1%的Ag后,钎料合金的强度和韧性明显增加,室温塑性上升、高温塑性降低,而对弹性模量影响不大。而添加0。5%的Cu后,钎料合金的强度明显增加,塑性和韧性都明显降低而对弹性模量影响不大。第三步,对焊接接头的界面特性进行观察,发现添加1%的Ag或0。5%的Cu后,界面形貌和金属间化合物的分布特点都没有改变,但接头界面处金属间化合物层的厚度明显增加。
综上所述,通过添加合金元素Ag、Cu有利于改善Sn-Bi钎料合金的微观组织和力学性能。
毕业论文关键字:无铅钎料;Sn-Bi合金;Ag;Cu;力学性能
Abstract When lower temperature is demanded in electronic packaging, Sn-Bi alloy, as a kind of low-melting lead free solder, has s great advantage。 But Bi itself is very brittle, which has a negative effect on mechanical properties of Sn-Bi alloy。 So in this paper, we mainly research on the effects of Ag and Cu addition on mechanical properties of Sn-Bi lead free solder。 The microstructure, mechanical properties of Sn-Bi solder and intermetallic reactions of joints are analyzed。
Firstly, the microstructure of Sn-Bi alloy is observed。 The results showed that the microstructure of Sn-Bi alloy is significantly refined and Ag3Sn particulates are deposited when 1% Ag is added。 The other hand, Bi is refined to some degree and Cu6Sn5 particulates are deposited as well when 0。5% Cu is added。 Secondly, we conducted stretching tests on Sn-Bi alloy at normal temperature, 100℃ and 125℃。 The results showed that 1% Ag addition has a great influence on Sn-Bi alloy’s mechanical properties----tensile strength, plasticity at normal temperature, toughness are significantly enhanced while plasticity at 100℃ is reduced, but little on modulus of elasticity。 And tensile strength is enhanced, while plasticity and toughness are reduced when 0。5% Cu is added, but modulus of elasticity is barely effected。 At the last, intermetallic reactions in Sn-Bi joints are observed。 The results show that Ag or Cu addition has little effect on the morphology of Cu/solder/Cu interface and the distribution of intermetallic compounds (IMC), but we observed significant growth of IMC layer。
In conclusion, we can refine the microstructure and improve mechanical properties of Sn-Bi alloy by Ag or Cu addition。
Keywords: lead free solder; Sn-Bi alloy; Ag; Cu; mechanical properties
目 录
第一章 绪论 1
1。1 钎料无铅化的发展 1
1。1。1 研究无铅钎料的现实意义 1
1。1。2 无铅钎料存在的问题 2
1。1。3 无铅钎料的研究现状及发展趋势 2
1。2 Sn-Bi无铅钎料合金的研究现状 3
1。2。1 Sn-Bi钎料的优势及用途 添加合金元素AgCu对低熔点Sn-Bi钎料力学性能的影响:http://www.youerw.com/cailiao/lunwen_105072.html