电镀参数对电沉积Sn-Ag-Cu合金镀层的影响

采用自主研发的甲磺酸锡银铜电镀液在黄铜基体上制备了Sn-Ag-Cu合金镀层。通过扫描电子显微镜(SEM)及其自带的能谱仪(EDS)分析了电镀工艺参数对Sn-Ag-Cu合金镀层的成分、表面形貌以及镀层厚度产生的影响。结果表明,当电流密度为4 A/dm^(2)、温度为25℃及pH为5.5时,可获得结晶较细且致密,表面平整光亮且厚度均匀的Sn-Ag-Cu合金镀层。

Effect of cerium on microstructure and mechanical properties of Sn-Ag-Cu system lead-free solder alloys

The melting point, spreading property, mechanical properties and microstructures of Sn-3.0Ag-2.8Cu solder alloys added with micro-variable-Ce were studied by means of optical microscopy, scanning electron microscopy(SEM) and energy dispersive X-ray(EDX). The results indicate that the melting point of Sn-3.0Ag-2.8Cu solder is enhanced by Ce addition; a small amount of Ce will remarkably prolong the creep-rupture life of Sn-3.0Ag-2.8Cu solder joint at room temperature, especially when the content of Ce is 0.1%, the creep-rupture life will be 9 times or more than that of the solder joint without Ce addition; the elongation of Sn-3.0Ag-2.8Cu solder is also obviously improved even up to 15.7%. In sum, the optimum content of Ce is within 0.05%-0.1 %.

Sn-Ag-Cu-Bi钎料合金设计与组织性能分析

借助于Thermo-Calc热力学计算软件,设计了Sn-Ag-Cu-Bi无铅钎料合金,并与国际上推荐的Sn-Ag-Cu钎料进行了对比试验;研究了Bi元素对钎料组织变化及对拉伸性能、铺展性能和熔化特性的影响。结果表明,Bi元素以单质和固熔形式存在于Sn-Ag-Cu合金中,Bi元素的添加使基体组织有所细化,抗拉强度明显提高;Bi元素能改善Sn-Ag-Cu无铅钎料对铜的润湿铺展性能,可有效降低合金熔点;用DSC(differential scanningcalorimeter)测试钎料的熔化温度为212℃,熔点比Sn-Ag-Cu降低了近6℃,与热力学计算结果(212.78℃)相近。试验测试与热力学计算的比较相符,说明了热力学计算在无铅钎料合金设计中应用的可行性。

纳米晶(Ag-Cu_(28))-25Sn合金粉末的制备及表征

采用机械合金化法制备纳米晶(Ag-Cu28)-25Sn合金粉末。用X射线衍射(XRD)仪、扫描电镜(SEM)、高分辨透射电镜(HRTEM)和差示扫描量热分析仪(DSC)等分析手段,对合金化过程中物相组成、微观结构及熔化特性进行表征。结果表明:(Ag-Cu28)-25Sn纳米晶合金粉末的物相组成为Cu3Sn和Ag4Sn。球磨40h,合金化完全,其熔化温度为548.5℃;球磨至60h,合金明显非晶化,其熔化温度为554.0℃,熔程变小且在186.3和399.5℃处出现明显放热峰。HRTEM表明,纳米晶的尺寸约为5～10nm,合金中有非晶态物质出现和晶格缺陷产生。200和400℃退火后,合金的平均晶粒尺寸分别为21.3和33.9nm。

主盐浓度和工艺条件对Sn-Ag-Cu合金镀层组成和形貌的影响

在弱酸性镀液中电沉积得到无铅Sn-Ag-Cu可焊性合金镀层。采用X射线荧光光谱仪(XRF)和扫描电子显微镜(SEM)研究了镀液中主盐浓度和电镀工艺条件对镀层的组成和形貌的影响。研究表明,Sn-Ag-Cu合金的电沉积是正则共沉积。镀液中Sn2+和Ag+浓度改变对镀层晶粒大小影响较大,Cu2+浓度的改变对镀层的平整度影响较大。电流密度增加、pH值下降、温度降低,都能使镀层结晶细致。

Microstructures and properties of Sn-Ag-Cu lead-free solder alloys containing La

Trace amounts of La were utilized to improve the melting behaviors,microstructures,tensile properties and microhardness of Sn-3.0Ag-0.5Cu lead-free solder alloy. La has little effect on the melting behavior of Sn-3.0Ag-0.5Cu alloy according to the differential thermal analysis(DTA) tests. The X-ray diffraction(XRD) patterns show that β-Sn,Ag3Sn and Cu6Sn5 coexist in the as-cast solder alloys and LaSn3 phases emerge when adding 0.4% La. The microstructures modified by La are more uniform and much finer than that of baseline alloy,and the coarse LaSn3 particles with complex dendrites are observed by optical microscopy(OM) and scanning electron microscopy(SEM) when the addition of La is up to 0.4%. The composition of the LaSn3 phases is identified by energy-dispersive spectroscopy(EDS). There are considerable improvements in mechanical properties with 0.05% and 0.1% addition,but degenerations by adding 0.4%La. The Vickers microhardness of β-Sn and eutectic area are both enhanced with the addition of La and the microhardness of LaSn3 is much larger than those of β-Sn and eutectic area.

Ag-Cu-Sn-In中温焊膏的性能与初步应用试验

采用氮气雾化法将Ag-22.4Cu-15Sn-5In焊料制成粉体,利用丙烯酸酯类化合物为载体将其调配成膏状焊料。应用试验表明,所配制的新型焊膏易于涂布,焊接性能良好,焊后残渣少,无需再清洗。该新型焊膏能进行可伐与钨铜、可伐与陶瓷等材料的焊接,有着广阔的应用前景。钎焊界面分析发现,钎料主要是由富Ag相,少量Cu7In4相、Cu39Sn11相以及Cu3Sn相组成。在钎焊过程中,镍基板上的镍与钎料中的元素铜存在元素扩散,这对改善钎料与基体之间的结合状况是有益的。

弱酸性电镀Sn-Ag-Cu合金及镀层焊接性能的研究

对弱酸性甲磺酸盐-碘化物电镀Sn-Ag-Cu合金工艺进行了优化,镀层光亮、致密、平整,阴极电流效率提高到25%左右。Sn-Ag-Cu合金镀层耐蚀性好;部分Sn-Ag-Cu合金镀层在高温高湿条件下有锡须产生;回流焊后Sn-Ag-Cu合金镀层与Sn-3.0Ag-0.5Cu焊料间结合牢固。

机械合金化法制备57.6Ag-22.4Cu-10.5In-9.5Sn合金粉末及其性能

为了得到熔化温度介于400~600℃的中温焊粉,用机械合金化法制备57.6Ag-22.4Cu-10.5In-9.5Sn合金粉末,借助X射线衍射仪、差示扫描量热仪、扫描电镜和能谱仪等研究了球磨时间对合金化过程中粉末的物相、熔化特性及显微形貌的影响。结果表明:利用机械合金化法球磨30 h可以成功制备出57.6Ag-22.4Cu-10.5In-9.5Sn合金粉末;随着球磨时间的增加,合金粉末的粒径不断减小,颗粒形貌从片层状逐渐转变为近球形,球磨60 h,合金粉末具有良好的球度,粒径5~35μm,最低液相点温度为494.3℃。

机械合金化法制备(Ag-Cu_(28))-xSn合金的结构和性能研究

利用机械合金化法制备（Ag—Cu28）-xSn系合金粉末，借助差示扫描量热仪、X-射线衍射仪、扫描电镜等，研究了Sn含量对合金熔化温度、球磨时间对合金粉末的物相组成及显微结构的影响。研究表明：Sn对合金的熔化温度有显著影响，随Sn含量增加合金熔化温度下降趋势减缓；当Sn含量为30％时，合金熔化温度最低为539．3℃。球磨40h时，（Ag—Cu28）-30Sn粉料合金化完全，其物相组成为Ag4Sn、Cu3Sn和Cu6Sn5。球磨初始阶段（Ag—Cu28）-30Sn粉料颗粒异常长大，球磨至40h时合金化完成，颗粒断裂和焊合达到平衡，合金粉末粒度均匀，平均粒径约为5～10μm。

表面组装用Sn-Ag-Cu无铅焊锡粉末的制备

利用自行设计的超音速雾化制粉装置,研究了导液管突出高度对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率和粒度分布的影响,并在此基础上研究了合金过热度对其有效雾化率及粉末特性的影响。结果表明:随着导液管突出高度的减小,有效雾化率并不是呈单调变化趋势,而是在突出高度1mm和5mm处分别出现峰值,导液管突出高度为4mm,雾化粉末具有较高的有效雾化率和最佳的粒度分布,而且导液管的突出高度决定着雾化过程是否能够顺利进行;当导液管突出高度为4mm时,随着合金过热度的升高,粉末粒度分布明显改善,但氧含量升高,当过热度为150℃时,Sn3Ag2.8Cu雾化粉末具有最佳的综合性能。

Ag-Cu-Ge-Sn新型中温焊膏的研制与应用

新型焊料Ag-24Cu-25Ge-4Sn（％）的熔化温度：544-557℃，固-液相间隔为：13℃；采用氮气雾化的方法将该焊料制成粉体，利用扫描电镜对焊料粉体形貌进行了观察，并用X-ray衍射对焊料的相结构进行了分析。研究表明：所制备的焊料粉体呈球形，粒径约20μm；焊料主要由富Ag相、Ge相、中间相Ag6.7Sn和Cu5Ge2相组成。利用丙烯酸酯类化合物为载体将其调配成膏状焊料；焊膏铺展试验表明，该焊料流散性一般，钎焊后焊料表面色泽光亮，但边界有堆积现象；钎焊截面分析发现，在钎焊界面处存在明显的多层过渡层，这应与镍基板上的Ni和钎料中元素Cu的互相扩散有关系。

In对Ag-Cu-Sn合金组织与性能的影响

研究得出Ag_(41)Cu_(42)Sn_(17-x)In_x合金以α-Ag相和β-Cu相这两种固溶相为主,枝晶间分部着少量的铜锡中间化合物,随着In含量的增加,合金中的β-Cu的生长受到抑制而共晶组织得以生长,合金中脆硬相逐渐分布均匀,枝晶间塑韧性较好的共晶组织逐渐增多导致合金的变形率逐渐增加,其中Ag_(41)Cu_(42)Sn7.4In9.6具有最高变形率37.2%。而合金中β-Cu相和枝晶间相的维氏硬度随着In含量的增加均表现出增大→减小→增大的规律。

低熔点Sn-Ag-Cu合金成分的优化

发现Sn-Ag和Sn-Cu二元相图的共晶点Sn96.2Ag3.8和Sn98.7Cu1.3的平均原子尺寸相等,Ra=0.154 6 nm。从而在三元Sn-Ag-Cu合金中,通过连接Sn-Ag和Sn-Cu二元共晶点得到一条Ra=0.154 6 nm的平均原子尺寸线,考虑到误差,在这条线近处选择了Ra=0.154 4和 Ra=0.1548的两条平均原子尺寸线。在高真空下用电弧熔炼法制备了三类合金(Sn96.2Ag3.8)x(Sn98.7Cu1.3)1-x(x=0.1,0.3,0.5,0.7)、(Sn94Ag6)x(Sn97.8Cu2.2)1-x(x=0.2,0.5,0.7)和(Sn98Ag2)x(Sn99.3Cu0.7)1-x(x=0.1,0.3,0.6)。

Sn-Ag-Cu合金电沉积行为的研究

Sn-Ag-Cu合金是一种熔点较低、润湿性和耐蚀性优良的可焊性镀层,可从弱酸性的甲磺酸盐-碘化物镀液中通过电沉积的方法获得。循环伏安曲线、极化曲线和交流阻抗谱等电化学测试以及X-射线荧光光谱(XRF)分析表明,在这种镀液中,Sn-Ag-Cu合金的共沉积类型为正则共沉积,随着镀液中Ag+和Cu2+离子浓度的增加,Sn-Ag-Cu合金镀层中Ag和Cu的含量迅速增加,且镀层中Ag和Cu的含量始终高于其在镀液中的含量。Sn-Ag-Cu合金的电沉积过程是不可逆过程,随着电极电势的负移,控制步骤由扩散过程控制向电化学过程控制转化。

Sn-Ag-Cu无铅焊锡粉末雾化工艺参数的优化

利用自行设计的超音速雾化制粉装置,通过正交实验法对Sn3Ag2.8Cu无铅焊锡粉末的雾化工艺参数进行优化,研究合金过热度和导液管内径对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率、平均粒径、粒度分布及氧含量的影响。结果表明:过热度对无铅焊锡雾化粉末的平均粒径和氧含量影响更大;导液管内径对无铅焊锡雾化粉末有效雾化率和离散度影响更大。当过热度为250℃,导液管内径为3mm,雾化粉末具有更好的综合性能。在与Cu基板的钎焊中,和Sn37Pb粉末相比,利用Sn3Ag2.8Cu粉末配制的焊锡膏与铜基板之间形成的IMC层更厚,且更不规则。

无铅合金Sn-Ag-Cu的润湿回流曲线研究

对电子封装工业生产中无铅合金焊料的回流曲线工艺进行了研究,引入了3种不同回流因子,即加热因子、预热因子、冷却因子。针对不同回流因子,分析了其剪切试验中剪切断面的形貌和成分,研究表明,大部分务件下断裂一般会发生在焊料内部区域,然而在焊料界面结合较弱时,断裂通常会发生在金属间化合物和基板界面处。总结提出了3种回流因子的合理取值范围,得到回流炉中Sn3.5Ag0.5Cu的最佳回流曲线,为工业上探索新的回流曲线提供了实验方法。

Ce的添加对Sn-Ag-Cu合金电阻率和组织的影响

通过Ce的添加以及熔体结构转变两个方面探究其对Sn-3.8Ag-0.7Cu的影响。运用直流四电极法测量Sn-3.8Ag-0.7Cu-XCe(X=0%,0.2%,0.5%,1%)合金在液相线以上电阻率随温度的变化,得出无铅焊料Sn-3.8Ag-0.7CuXCe合金存在温度诱导的熔体结构转变,并且这种转变是可逆的。随着Ce添加量的增加,合金的熔点升高。凝固实验结果显示,熔体结构转变以及稀土元素Ce的添加均可以细化合金微观组织,且当Ce的添加量为0.2%时,微观结构最细小均匀。

Effects of bismuth on growth of intermetallic compounds in Sn-Ag-Cu Pb-free solder joints

The effects of Bi addition on the growth of intermetallic compound (IMC) formation in Sn-3.8Ag-0.7Cu solder joints were investigated. The test samples were prepared by conventional surface mounting technology. To investigate the element diffusion and the growth kinetics of intermetallics formation in solder joint, isothermal aging test was performed at temperatures of 100, 150, and 190℃, respectively. The optical microscope (OM) and scanning electron microscope (SEM) were used to observe microstructure evolution of solder joint and to estimate the thickness and the grain size of the intermetallic layers. The IMC phases were identified by energy dispersive X-ray (EDX) and X-ray diffractometer (XRD). The results clearly show that adding about 1.0% Bi in Sn-Ag-Cu solder alloy system can refine the grain size of the IMC and inhibit the excessive IMC growth in solder joints, and therefore improve the reliability of the Pb-free solder joints. Through observation of the microstructural evolution of the solder joints, the mechanism of inhibition of IMC growth due to Bi addition was proposed.

Aging Strengthening in Rapidly Solidified Cu-Cr-Sn- Zn Alloy

It is known that the strength of alloys can be successfully improved by rapid solidification. The paper presents a process where Cu-Cr-Sn-Zn lead frame alloy is produced by rapid solidification and aging. The microcrystalline structure of rapidly solidified Cu-Cr-Sn-Zn alloy is smaller grain structure examined by optical metallography. The effects of aging processes on the microstructure and properties of the lead frame alloy were investigated. Aged at 500℃ for 15 min the fine coherent precipitates Cr distribute in Cu matrix observed by transmission electron microscopy and the properties of hardness and electrical conductivity properties can reach 178HV and 61%IACS, respectively.