无铅焊点及其内部金属间化合物的力学性能研究

采用纳米压痕技术对无铅焊点(Sn3.0Ag0.5Cu、Sn0.7Cu和Sn3.5Ag)及其内部界面金属间化合物(intermetallic compound,IMC)的力学性能进行测试。根据实际工业工艺流程制备无铅焊点试样;利用接触刚度连续测量(CSM)技术对焊点及内部IMC层进行测试,得到IMC层及无铅焊点的弹性模量、硬度等力学性能参数,并根据载荷-位移曲线的保载阶段确定蠕变应力指数。结果表明,Sn0.7Cu的IMC层的弹性模量和蠕变应力指数为无铅焊点的2.03和6.73倍;对无铅焊点的可靠性评估中,将IMC层的影响考虑进去使得结果更为合理。     

增强颗粒对Sn0.7Cu基复合钎料铺展性能的影响

以Sn0.7Cu共晶钎料作为基体钎料,通过添加微细金属颗粒(1μmAg、1μmNi和8μmCu)形成颗粒增强复合钎料。研究了增强颗粒对复合钎料铺展性能的影响,优选出Sn0.7Cu基复合钎料的最佳增强体。研究表明:Ni(3vol%)颗粒增强Sn0.7Cu复合钎料铺展性能差;Cu(3vol%)颗粒增强复合钎料铺展性能不如Ag(3vol%)颗粒增强复合钎料;对于金属颗粒增强Sn0.7Cu基复合钎料,Ag颗粒为最佳增强体。     

Creep behavior on Ag particle reinforced SnCu based composite solder joints

1 Introduction The EU had issued the WEEE mandate that aimed to prohibit the use of SnPb solders by 2006. Under the pressure of legislation and trade competitions, large electronic manufacturers and research institutes studied substitutes for SnPb solders…     

两种无铅钎料的抗蠕变性能与Sn60Pb40钎料的对比分析

对两种无铅钎料Sn-Ag-Cu-Bi和Sn-Ag-Sb模拟封装钎焊接头的蠕变和断裂行为进行了研究,并与传统的Sn60Pb40近共晶钎料进行了对比.结果表明,两种无铅钎料的抗蠕变能力均远优于Sn60Pb40近共晶钎料,其蠕变速率低且蠕变寿命长.钎焊接头蠕变断裂后的扫描电镜分析表明,两种无铅钎料钎焊接头的蠕变断裂呈现明显的沿晶断裂特征,而Sn60Pb40钎料钎焊接头的蠕变断裂机理则为穿晶断裂.     

纳米Ag颗粒增强复合钎料蠕变性能的研究

制备纳米Ag颗粒增强的Sn-Cu基复合钎料.研究不同温度载荷下复合钎料钎焊接头的蠕变断裂寿命,并与Sn-0.7Cu基体钎料钎焊接头进行对比.此外,确定纳米Ag颗粒增强的Sn-Cu基复合钎料钎焊接头在不同温度和应力水平下的应力指数和蠕变激活能,建立复合钎料钎焊接头的稳态蠕变本构方程.结果表明,在不同的温度和应力下,与Sn-0.7Cu钎料钎焊接头相比,纳米Ag颗粒增强的Sn-Cu基复合钎料钎焊接头的蠕变断裂寿命均有所提高,且具有更高的蠕变激活能,说明复合钎料钎焊接头具有更优的抗蠕变性能.     

Bi对Sn3.5Ag共晶合金钎料性能的影响

研究了添加Bi元素对Sn3.5Ag共晶合金钎料性能的影响,对Sn3.5AgxBi(x=0,3,5,7)钎料的熔点、力学性能和热蠕变性能与传统Sn37Pb钎料作了对比试验分析.结果表明:Sn3.5Ag5Bi钎料具有良好的综合性能,实用价值较高,Bi的添加量应控制在5%左右,过多的Bi元素会导致钎料的液固相线温度差增大,韧性下降.     

RE对Sn2.5Ag0.7Cu/Cu焊点性能的影响

利用X射线衍射分析仪(XRD)和JSM-5610LV扫描电镜(SEM)研究RE含量对Sn2.5Ag0.7Cu/Cu焊点界面区显微组织、剪切强度和蠕变断裂寿命的影响。结果表明:Sn2.5Ag0.7CuxRE焊点界面区金属间化合物由靠近钎料侧Cu6Sn5和靠近Cu基板侧Cu3Sn构成;添加微量RE可细化Sn2.5Ag0.7Cu焊点内钎料合金的显微组织和改善钎焊接头界面区金属间化合物的几何尺寸及形态;当RE添加量为0.1%时,焊点的剪切强度最高,蠕变断裂寿命最长。     

半导体激光加热时间对焊膏在铜基板上润湿铺展性能的影响

采用半导体激光软钎焊系统对Sn63Pb37和Sn96Ag3.5Cu0.5焊膏在铜基板上的润湿铺展性能进行了试验,研究了不同激光加热时间对钎料润湿铺展性能的影响,采用扫描电镜分析了Sn63Pb37和Sn96Ag3.5Cu0.5钎缝的显微组织和钎缝界面区组织特征.结果表明,在一定的激光输出功率下,随着激光加热时间的增加,两种钎料的润湿性都得到提高.其中Sn-Pb钎料焊膏的加热时间达到1.5 s时,润湿面积和润湿角趋于稳定,而Sn-Ag-Cu钎料焊膏润湿性需要达到2.5 s时润湿面积和润湿角才趋于稳定.     

Ni对SnAgCuRE钎料及其钎焊接头性能的影响

以商用Sn3.8Ag0.7Cu为参照系,研究了Ni对Sn2.5Ag0.7Cu0.1 RE钎料合金及其钎焊接头性能的影响。研究结果表明,添加0.05%(质量分数)Ni能在不降低Sn2.5Ag0.7Cu0.1RE钎料合金抗拉强度的同时显著提高其伸长率,是商用Sn3.8Ag0.7Cu的1.4倍;相应地钎焊接头的蠕变断裂寿命最长,为未添加Ni时的13.3倍,远高于现行商用Sn3.8Ag0.7Cu的,满足微电子连接高强韧高可靠性无铅钎料合金系的需求。     

Creep behavior of SnAgCu solders with rare earth Ce doping

Extensive testing was carried out to study the effects of rare earth Ce doping on the properties of SnAgCu solder alloys.The addition of 0.03%(mass fraction) rare earth Ce into SnAgCu solder may improve its mechanical properties,but slightly lower its melting temperature.The tensile creep behavior of bulk SnAgCuCe solders was reported and compared with SnAgCu solders.It is found that SnAgCuCe solders show higher creep resistance than SnAgCu alloys.Moreover,Dorn model and Garofalo model are successfully used...     

Lead-free solders with rare earth additions

Abstact  There have been significant research efforts to improve the properties of globally recognized lead-free solders, such as Sn-Ag-Cu, Sn-Cu, Sn-Bi, etc. Rare earth (RE) elements have been selected in the current research to be added into lead-free solders as alloying elements in an effort to improve the comprehensive properties, such as wettability, microstructural stability, creep resistance, and mechanical strength and integrity of the solders. This article overviews the background and rationale for the alloy development, the fabrication techniques for RE-containing solders, the roles of RE elements, as well as current status of RE-containing solder research. Examples of several representative RE-containing solders are introduced. The effects of RE element addition on the wetting behavior, microstructure, and mechanical properties of certain lead-free solder alloys are presented and analyzed.     

Ni改性GNSs对SnAgCuRE/Cu钎焊接头热老化特性的影响

以Sn2.5Ag0.7Cu0.1RE0.05Ni无铅钎料合金为研究对象,基于石墨烯纳米片（GNS）独特的结构、优异的物理性能和力学性能,以其为复合钎料的增强相,开展基于Ni改性GNSs（Ni-GNSs）增强SnAgCuRE系复合钎料/Cu的钎焊和钎焊接头热老化试验,探讨Ni-GNSs对复合钎料组织及钎焊接头热老化失效断裂机制的影响。结果表明：Ni-GNSs的加入,抑制了复合钎料的线膨胀,产生晶格畸变,导致位错产生,金属间化合物（IMC）颗粒分布在位错线附近,与位错发生交互作用,阻碍位错运动,强化复合钎料,进而强化复合钎料接头。随着热老化时间延长,钎焊接头界面IMC层厚度增加,剪切强度降低;其中,添加0.05%（质量分数）GNSs的复合钎料接头剪切强度降幅最小,为8.9%,且热老化384 h后,其剪切强度仍高于Sn2.5Ag0.7Cu0.1RE0.05Ni/Cu合金接头热老化前的剪切强度。Ni-GNSs的加入,使复合钎料钎焊接头界面IMC的生长系数明显降低,有效缓解了复合钎料/Cu钎焊接头热老化过程中力学性能的降低,进而改变复合钎料/Cu钎焊接头的热老化失效断裂机制,最终影响接头的可靠性。Sn2.5Ag0.7Cu0.1RE0.05Ni/Cu钎焊接头的断裂位置由热老化前的钎缝区向钎缝/界面IMC移动,变为韧脆混合断裂;而添加0.05%（质量分数）GNSs复合钎料接头的断裂位置均在钎缝区,为韧性断裂,钎焊接头可靠性较高。     

无铅焊料在NaCl-Na_2SO_4-Na_2CO_3模拟土壤溶液中的腐蚀浸出行为

研究了Sn-3.5Ag-0.75Cu和Sn-0.75Cu焊料合金在NaCl-Na_2SO_4-Na_2CO_3模拟土壤溶液中的腐蚀浸出行为,并与Sn-37Pb焊料合金的腐蚀浸出行为对比分析。研究表明,这3种焊料合金中Sn的浸出量随时间的延长趋于平缓,且Sn-0.75Cu焊料合金中Sn的浸出量最高,添加Ag元素后明显抑制了Sn-3·5Ag-0·75Cu焊料合金中Sn的浸出;Ag,Cu,Pb的浸出量随时间的延长呈线性增加,且Ag,Cu的浸出量较少。3种焊料合金浸出后表面产物层较厚,主要由Sn_4(OH)_6Cl_2和SnO组成,其中Sn-0.75Cu焊料合金的表面产物层有裂纹和孔洞,Sn-3.5Ag-0.75Cu焊料合金的表面产物相对致密,而Sn-37Pb焊料合金的表面产物局部出现剥落现象。这3种焊料合金浸出动力学行为存在差异,主要与表面产物的相组成和形貌有关。     

半导体激光工艺参数对Sn-Ag-Cu钎料润湿性影响分析

采用半导体激光软钎焊系统对Sn96Ag3．5Cu0．5钎料和Sn63Ph37钎料进行了润湿性对比试验研究，分析了激光输出功率对钎料润湿性的影响规律。结果表明，提高半导体激光的输出功率，在一定范围内能显著改善Sn96Ag3．5Cu0．5钎料和Sn63Ph37钎料的润湿性。根据钎料的合金成分及钎料膏中钎剂成分的不同，优化半导体激光钎焊工艺参数，可以达到最佳的钎焊效果。     

稀土镧对Sn3．5Ag0．5Cu钎料组织性能的影响

运用莱卡显微镜、显微硬度计、拉伸试验机等仪器设备,研究添加不同含量稀土元素La对Sn3．5Ag0．5Cu钎料及其与Cu基体焊合后微观组织及性能影响。结果表明：添加不同含量的稀土La均能使Sn3．5Ag0．5Cu钎料及其与Cu基体焊合后组织与性能得到改善,其中以La含量达到0．05％时为最优,显微硬度及剪切强度分别提高14％和10．7％;基于热力学理论计算结果表明稀土元素La具有“亲Sn”倾向,可减小钎料中锡基化合物界面锡的活度,降低IMC的长大驱动力。     

电子互连无铅钎料及焊点蠕变行为研究进展

针对近年来无铅钎料及焊点的蠕变失效问题,综合评述了蠕变变形行为及其在焊点可靠性评估中的应用。首先系统地介绍无铅钎料的蠕变行为,探讨含合金元素/颗粒无铅钎料蠕变性能改性机制。其次评述焊点蠕变行为,探讨焊点成分以及不同基板材料对焊点蠕变特性影响的研究进展。再次结合具体电子器件,采用有限元模拟,分析基于有限元的焊点蠕变响应及疲劳寿命预测,评估焊点可靠性。最后针对无铅钎料及焊点蠕变行为的未来发展进行展望,分析其研究中存在的问题及解决办法,为焊点可靠性进一步研究提供理论支撑。     

升温速率对复合钎料显微组织和力学性能的影响

不同的钎焊工艺条件会对复合钎料中增强相颗粒（如Ni,Ag,Cu等金属颗粒）周围金属间化合物的形貌和尺寸产生影响,而增强相颗粒周围金属间化合物的尺寸又会对复合钎料的力学性能产生影响。在共晶Sn-3．5Ag钎料中外加微米级铜颗粒制成复合钎料,研究了不同的升温速率对复合钎料内部颗粒显微组织和力学性能的影响。结果表明,复合钎料中铜增强颗粒周围存在着厚度不均的金属间化合物层,不同的升温速率对这层金属间化合物的形貌基本没有影响,只会对其厚度尺寸有影响。此外,建立了不同升温速率与铜颗粒增强的Sn-Ag基复合钎料增强颗粒周围金属间化合物尺寸和力学性能的关系。     

应力对SnPb基复合钎料钎焊接头蠕变性能的影响

采用搭接面积为1mm^2的单搭接钎焊接头，研究了恒定温度下，应力对纳米颗粒增强的SnPb基复合钎料钎焊接头的蠕变寿命的影响。结果表明，纳米颗粒增强的SnPb基复合钎料的蠕变抗力优于传统SnPb钎料。同时钎焊接头的蠕变寿命随应力增加而降低，且应力对复合钎料钎焊接头蠕变寿命的影响较传统63Sn37Pb钎料明显。     

Suppressing effect of 0.5 wt.% nano-TiO2 addition into Sn-3.5Ag-0.5Cu solder alloy on the intermetallic growth with Cu substrate during isothermal aging

This study investigated the effects of adding 0.5 wt.% nano-TiO₂ particles into Sn3.5Ag0.5Cu (SAC) lead-free solder alloys on the growth of intermetallic compounds (IMC) with Cu substrates during solid-state isothermal aging at temperatures of 100, 125, 150, and 175 °C for up to 7 days. The results indicate that the morphology of the Cu₆Sn₅ phase transformed from scallop-type to layer-type in both SAC solder/Cu joints and Sn3.5Ag0.5Cu-0.5 wt.% TiO₂ (SAC) composite solder/Cu joints. In the SAC solder/Cu joints, a few coarse Ag₃Sn particles were embedded in the Cu₆Sn₅ surface and grew with prolonged aging time. However, in the SAC composite solder/Cu aging, a great number of nano-Ag₃Sn particles were absorbed in the Cu₆Sn₅ surface. The morphology of adsorption of nano-Ag₃Sn particles changed dramatically from adsorption-type to moss-type, and the size of the particles increased.The apparent activation energies for the growth of overall IMC layers were calculated as 42.48 kJ/mol for SAC solder and 60.31 kJ/mol for SAC composite solder. The reduced diffusion coefficient was confirmed for the SAC composite solder/Cu joints.     

底充胶叠层PBGA无铅焊点随机振动应力应变分析

建立了底充胶叠层塑料球栅阵列(plastic ball grid array, PBGA)无铅焊点三维有限元分析模型,研究了PBGA结构方式、焊点材料、底充胶弹性模量和密度对叠层无铅焊点随机振动应力应变的影响. 结果表明,底充胶可有效降低焊点内的随机振动应力应变;在其它条件相同下,对于Sn95.5Ag3.8Cu0.7,Sn96.5Ag3Cu0.5,Sn-3.5Ag和Sn63Pb37这四种焊料,采用Sn-3.5Ag的底充胶叠层焊点内的随机振动最大应力应变最小,采用Sn96.5Ag3Cu0.5的焊点内的最大应力应变最大;随着底充胶弹性模量的增大,叠层无铅内的随机振动应力应变值相应减小;随着底充胶密度的增大,叠层无铅内的随机振动应力应变值相应增大.