Al对Sn-58Bi无铅钎料组织及性能的影响

研究了在Sn-58Bi合金中添加少量Al后对合金性能、恒温时效焊点组织稳定性及接头界面处金属间化合物层生长的影响.研究结果表明:在80℃时Sn-58Bi合金具有稳定的组织结构,但超过100℃Bi相会异常粗化,导致合金性能变差.在100℃恒温时效试验中,Al能有效抑制Bi相的粗化,接头界面处IMC层的生长呈减缓趋势.随着Al含量的增加,Sn-58Bi-Al系合金的拉伸强度增大,铺展性有所降低.     

微量元素改性Sn-0.7Cu系无铅钎料的研究进展

微量元素改性Sn-0.7Cu系无铅钎料的性能有所提高,添加的微量元素主要有Ni、Ce、P和Ge等,重点介绍了微量元素的添加对钎料显微组织和性能的影响。该系无铅钎料的润湿性能和一般力学性能仍与传统的SnPb钎料具有一定的差距。因此,寻找恰当的微量元素,开发出具有综合性能优良的Sn-0.7Cu系无铅钎料将成为未来无铅钎料的重要研究方向之一。     

Sn-Sb-Cu(Bi)系无铅钎料的研究

本文研究了Sn-Sb-Cu(Bi)系无铅钎料的润湿性、显微组织以及熔化特性,对Sb、Cu、Bi等元素在Sn基钎料中的作用进行了阐述,发现了几种有应用潜力的合金,有望取代现有广泛使用的SnAg(Cu)系钎料.     

电子组装用高温无铅钎料的研制

Bi-Ag合金是一种替代高铅钎料的芯片封装无铅焊料。研制了Bi-2.5Ag、Bi-2.5Ag-0.1RE、Bi-5Ag-0.1RE、Bi-7.5Ag-0.1RE、Bi-10Ag、Bi-10Ag-0.1RE钎料。结果表明,该合金系钎料的熔化温度范围随Ag含量的增加而增大,而且其润湿性能良好,润湿角都处于30o～40o。不同Ag含量的Bi-Ag/Cu接头在界面处发生断裂,剪切强度差别不大,都略大于30MPa。Bi-Ag/Cu界面没有金属间化合物形成,结合强度较弱。     

Sn-9Zn无铅电子钎料助焊剂研究

Sn-9Zn共晶合金在一般松香助焊剂条件下润湿性较差。开发了一种新的改性松香助焊剂。用铺展面积测量和润湿天平两种手段,表征不同助焊剂条件下Sn-9Zn合金对铜的润湿性,用失重测量表征助焊剂对铜和焊料合金的腐蚀性。结果表明:在乙醇–松香中加入少量SnCl2作为助焊剂可大大改善Sn-9Zn对铜的润湿性,但对焊料合金有一定的腐蚀性。选择了一种具有较强活性的有机碱性缓蚀剂,含SnCl2的助焊剂中加入该缓蚀剂后可基本消除腐蚀作用,同时还改善了润湿性。     

无铅钎料Sn-0.7Cu机械合金化研究

利用扫描电子显微镜和差热分析仪,研究了Sn-0.7Cu粉末的机械合金化过程;同时将机械合金化获得的粉末制成焊膏,进行铺展实验,并对金相组织进行了分析.研究结果表明,机械合金化是一种制备钎料粉体的方法;粉末的最终颗粒尺寸可通过合适的工艺参数来控制;用机械合金化获得的钎料粉体制成的焊膏,其铺展面积及润湿角方面与传统的熔炼法获得的钎料差别不大,铺展试样的金相组织由富Sn相、Cu6Sn5和少量Cu3Sn相组成.     

Sn-0.3Ag-0.7Cu-xBi低银无铅钎料的润湿性

以Bi为添加剂对低银型Sn-0.3Ag-0.7Cu无铅钎料进行改性,应用SAT—5100型润湿平衡仪对Sn-0.3Ag-0.7Cu-xBi(x=0,1,3和4.5)钎料的润湿性能作了对比分析。结果表明:适量Bi元素的加入可以改善Sn-0.3Ag-0.7Cu钎料合金的润湿性能,且在240℃下Sn-0.3Ag-0.7Cu-3.0Bi无铅钎料具有最佳的润湿性能,在250℃其润湿力达到最大值3.2×10–3N/cm。     

SnAgCuRE系钎料的钎焊接头组织与力学性能

以Sn2.5Ag0.7Cu为基础,添加微量的稀土(RE)r(Ce︰La)为4︰1,研究了钎焊接头的显微组织与力学性能。结果表明:添加微量的RE后,钎料与Cu试样间的界面层厚度明显减小,且界面处的组织更加平滑,相应地其剪切强度随微量RE的添加而增大,并在RE含量(质量分数)为0.1%时达到最大值36MPa。     

Sn-Zn系无铅钎料最新进展

Sn-Zn系钎料熔点与传统Sn-37Pb钎料十分接近,成本低廉,被研究者所推崇。由于Zn的存在导致Sn-Zn钎料润湿性差及抗氧化性不足,阻碍了该钎料的发展。添加合金元素和纳米颗粒是改善Sn-Zn钎料组织和性能行之有效的方法之一,为国内外研究者所推崇。结合国内外Sn-Zn系无铅钎料最新研究成果,探讨添加微量的合金元素In、Ni、Cr、Ga、Bi、Cu、Al、Ag、稀土元素及纳米颗粒对钎料润湿性、抗氧化性、力学性能、显微组织和界面组织的影响,同时简述有关钎剂对Sn-Zn的影响,并对Sn-Zn系钎料的发展趋势进行分析与展望。     

Sn-3.7Ag-0.9Zn无铅钎料合金压入蠕变性能研究

采用自制的压入蠕变装置,研究了共晶型Sn-3.7Ag-0.9Zn无铅钎料合金在333~418K,压入应力为34.1~75.3MPa时的压入蠕变性能,并获得其稳态压入蠕变速率的本构方程;利用XRD和SEM对合金蠕变前后的成分和微观组织进行了分析。结果表明:Sn-3.7Ag-0.9Zn无铅钎料合金的应力指数n为4.6,蠕变激活能Qc为82.03kJ/mol,材料的结构常数A为1.74×10–5,其压入蠕变机制主要是由位错攀移运动控制的蠕变;金属间化合物Ag3Sn、AgZn提高了合金的抗压入蠕变性能。     

Effects of Trace Amounts of Rare Earth Additions on Microstructure and Properties of Sn-Bi-Based Solder Alloy

The effect of trace amounts of rare earth additions on the microstructure and properties were studied for the Sn-58Bi and Sn-58Bi-Ag solder alloys. At the same time, the intermetallic compounds (IMCs) in the solder alloys and intermetallic layer (IML) thickness at the solder/Cu substrate interface were investigated, both as-reflowed and after high-temperature aging. The results indicate that adding trace amounts of rare earth (RE) elements has little influence on the melting temperature and microhardness of the solders investigated, but adding RE elements improves the wettability and shear strength of the Sn-58Bi and Sn-58Bi-Ag solder alloys. In addition, it was found that the addition of RE elements not only refines the microstructure and size of the IMC particles, but also decreases the IML thickness and shear strength of the Sn-58Bi solder joint after high-temperature aging. Adding trace amounts of RE elements is superior to adding trace amounts of Ag for improving the properties of the Sn-58Bi solder. The reason may be related to the modification of the microstructure of the solder alloys due to the addition of trace amounts of RE elements.     

稀土元素对无铅钎料微观结构及性能的影响

添加适量的稀土元素可以有效提高无铅钎料(如SnAgCu,SnZn)的性能,尤其是添加稀土的SnAgCu钎料的蠕变断裂寿命是未添加时的7倍.针对添加微量稀土元素对无铅钎料润湿性、力学性能、蠕变性能以及电迁移行为的影响,特别是对钎料微观结构的变化规律进行了综述,并指出了新型钎料的应用及发展前景.     

Sn-58Bi在镀镍层表面的焊接工艺

针对镀镍盒体表面易被氧化等原因导致可焊性下降,且可选无铅焊料Sn-58Bi焊膏的情况下,通过在空气中直接加热焊接、借助真空炉在无氧环境中焊接等方式,确认空洞率高与空气中氧气的存在无关。最终通过在焊接过程中另加自配的助焊剂,将焊接后的空洞率控制在5％以内,满足了焊接要求。     

Effects of reflow on wettability, microstructure and mechanical properties in lead-free solders

Solder joints used in electronic applications undergo reflow operations. Such operations can affect the solderability, interface intermetallic layer formation and the resultant solder joint microstructure. These in turn can affect the overall mechanical behavior of such joints. In this study the effects of reflow on solderability and mechanical properties were studied. Nanoindentation testing (NIT) was used to obtain mechanical properties from the non-reflow (as-melted) and multiple reflowed solder materials. These studies were carried out with eutectic Sn-3.5Ag solders, with or without mechanically added Cu or Ag reinforcements, using Cu substrates. Microstructural analysis was carried out on solder joints made with the same solders using copper substrate.     

颗粒增强Sn-Ag基无铅复合钎料显微组织与性能

通过外加法向Sn-3.5Ag焊料中加入体积分数为10%的微米级Cu、Ni颗粒制备了无铅复合钎料,对钎料的显微组织、拉剪及润湿性能进行了研究。结果表明,颗粒周围以及基板界面处的显微组织中生成了金属间化合物,其形态及大小因加入颗粒而不同。颗粒的加入提高了钎料钎焊接头的剪切强度,其中Cu颗粒增强的接头的剪切强度提高了33%,Ni颗粒的提高了20%。两种复合钎料的铺展面积均下降了约15%,其中Cu颗粒增强复合钎料润湿角由11°增加到18°。     

Intermetallic compounds formed during interfacial reactions between liquid Sn-8Zn-3Bi solders and Ni substrates

The morphology and growth kinetics of intermetallic compounds (IMCs) formed at the interfaces between liquid Sn-8Zn-3Bi solders and nickel substrates in the temperature range from 225°C to 400°C are investigated for the applications in bonding recycled sputtering targets to their backing plates. The results show that a continuous single layer of Ni₅Zn₂₁ IMC appears at temperatures below 325°C, while a double layer containing Ni₅Zn₂₁ and Ni₃₅Zn₂₂Sn₄₃ IMCs is formed at temperatures above 325°C. In both cases, the growth kinetics of IMCs is interface-controlled. During the growth of IMCs, their reaction fronts migrate in the direction of the solder much more rapidly than toward the nickel substrate, and erosion of the Ni substrate is quite slight.     

Low-cycle fatigue behavior of Sn-Ag, Sn-Ag-Cu, and Sn-Ag-Cu-Bi lead-free solders

Low-cycle fatigue (LCF) tests on as-cast Sn-3.5Ag, Sn-3Ag-0.5Cu, Sn-3Ag-0.5Cu-1Bi, and Sn-3Ag-0.5Cu-3Bi solders was carried out using a noncontact strain-controlled system at 20°C with a constant frequency of 0.1 Hz. The addition of Cu does not significantly affect the fatigue life of eutectic Sn-Ag solder. However, the fatigue life was significantly reduced with the addition of Bi. The LCF behavior of all solders followed the Coffin-Manson relationship. The fatigue life of the present solders is dominated by the fracture ductility and can be described by the ductility-modified Coffin-Manson’s relationship. Steps at the boundaries of dendrite phases were the initiation sites for microcracks for Sn-3.5Ag, Sn-3Ag-0.5Cu, and Sn-3Ag-0.5Cu-1Bi solders, while for Sn-3Ag-0.5Cu-3Bi solder, cracks initiated along both the dendrite boundaries and subgrain boundaries in the dendrite phases. The linking of these cracks and the propagation of cracks inside the specimen occurred both transgranularly through eutectic phases and intergranularly along dendrite boundaries or subgrain boundaries.     

Ag对Sn-9Zn合金钎料组织及性能的影响

用莱卡显微镜、XRD研究添加元素Ag对Sn-9Zn钎料组织及性能的影响。结果表明:Ag与Zn形成AgZn3化合物,能抑制粗大针状富Zn相的形成,可使Sn-9Zn钎料合金的润湿性提高20%,并明显改善Sn-9Zn的耐蚀性。     

Creep and rupture behavior of Cu wire/lead-free solder-alloy joint specimen

Creep and rupture behavior of Cu wire/lead-free solder-alloy joint specimens have been investigated using Sn-3.5% Ag and Sn-0.5% Cu alloys. A Sn-37% Pb solder alloy is also used as a reference material. The present authors have fabricated a creep-rupture testing machine for Cu wire/solder-alloy joint specimens, performed creep and rupture tests at 303 K and 403 K, analyzed the characteristics of the creep and rupture behavior, and compared these to test specimens cut from the same alloy ingots. It is also found that the rupture strength of the joint specimens is related to the rupture strength of the alloys.