锡膏培训教材

SMT锡膏知识的培训一.锡浆的管制Sn-Ag 焊料特性: 熔点.偏高比Sn-Pb高30℃-40℃成本高润湿性差2.无铅锡膏(环保焊料)1.熔点也没大概在217℃左右2.无毒或毒性低3.热传导导电率好润湿性良好4.机械性能良好(机械强度与抗热老化性能)5.与焊接设备和工艺兼容6.焊接后易修3.PCB 的要求1.PCB材料要耐高温(可以耐焊接温度不变形)2.助焊剂氧化-还原能力加强3.N2隋性气体焊料氧化护焊技术二.锡浆的组成部份Sn96.5/Ag3.0Cu0.5合金粉部份Sn63/pb37緆浆的组成部份溶剂(化学)助焊剂部份松香(助焊)三.合金粉1.金属含量影响锡膏粘度.流动性2.含量高回焊后助焊残渣比较少(也就是金属氧化机率比较大)3.含量太高锡膏储存难(也就是储存的时间降低)4.一般锡膏储存的环境恒温2℃-10℃5.冷藏的好处有1.降低活性及化学反应2.延长表面寿命四.助焊剂的作用1 去除氧化物2.reflow 迥流过程形成或保护膜3.降低表面张力五.助焊剂的组成松香合成形成保护膜增加粘度化学溶剂分解化学物预热过程中蒸发控制粘度及流动性助焊剂催化剂清除氧化物的媒介作用分解金属表面氧化物促进温润作用添加剂控制锡膏稳定性调节粘度六.reflow profire (温度曲线)setp1 (预热区)setp2(升温区)reflow profire setp3(溶锡区)setp4(降温区)SETP11.预热区(0-150℃) 加速的温速1-3℃/SEC2蒸发的PCB板上多余的溶剂增加锡膏粘度3.PCB及零件慢慢的预热使PAD.CHIP的温度一致. SETP21.加热区(渗透区),<150℃-200℃>加速的温速2-3℃/秒2 助焊剂开始活化3.降低零件脚及PCB的焊点及锡膏金属粉末的氧化4.助焊剂被活化后保护金属表面表面再被氧化5.降低所有零件之间的温度差异6.使所有零件都能迖到迥焊炉的温度(220℃)SETP3.1.熔锡区(220℃-245℃) 加速的温速1-2℃/秒2.此区是锡膏已经达到液态3.活化的助焊剂降低金属的表面张力4.均已达到界面含金的形式SETP41.降温区降温的温速<4℃/秒参考图：SMT制程不良分布1.锡膏印刷占有率为64%2.零件置放占有率为15%3.回流焊接占有率为15%4.原材料占有率为6%一、回焊时不良分析1预热区太快:造成以下状况:锡球锡珠锡桥零件破损2.渗透区太长造成以下状况: 材料(PCB及零件)氧化立碑短路3渗透区太短造成以下状况: 立碑溶锡不良(偏移)4回焊区太长造成以下状况界面金属的形成造成焊接不良5.迥焊区太短造成以下状况溶锡不完全金属合成无速度6冷却区太快造成以下状况PCB及PAD破损零件热冲速度太大PCB焊点易脱落7冷却区太慢造成以下状况焊接强度弱灰暗(表面)二、常见不良分析组件竖起1. 组件置放不正2.加热速度太快或不均匀3.印刷锡膏太多(不均匀)4.组件的锡膏的可焊接性差锡珠1.印刷锡膏相对焊盘太多2.置放组件压力太大3.加热太快4.受潮5.PCB板上有部份溶剂(需清洗)6.PCB印刷失败后末清洁干凈7.作业过程中挤压造成桥接1.印刷: 锡膏塌落2.PCB 设计有关 1.激光3.钢网开孔方式有关方式有 2.腐蚀:腐刻如采用这种方式造成壁不光滑(塌落)4.置放组件压力太大5.置放不准6.钢网清洁不干凈7.锡膏太厚或开孔较大焊锡点不足1锡少2.钢网厚度不够3.锡膏不均匀搅拌不够4.锡膏本身金属含量空焊1.温度不够(冷焊或假焊)2.锡膏量太少3.锡膏颗粒太粗4.PCB板氧化5.温度过高时间过长。

Solder Paste Printing ProcessPL-6 Technology Process SharingPrepared By: Rhoderic M. dela CuestaSMT ENGINEER5’S OF SOLDER PASTE PRINTING•Solder Paste - A homogeneous combination of solder particles (ranging in diameter from about 4 to 40 microns) Solder paste iscommonly applied by printing, dispensing, pre-forms, and manualmethods.•Stencil- A thin sheet of brass or stainless steel with openings that match the land pattern of the printed circuit board. Typically,solder paste are force applied through these openings onto the printed circuit boardcomponent pads.•Squeegee- A metal or rubber blade used in screen or stencil printing to wipe across the screen (stencil) to force solder paste throughopenings in the screen (stencil).•Support- A metal assistance of PWB that act as an underside brace to hold it in particular location.•Spatula- A tool commonly made of metal, plastic or ceramic used for mixing, spreading, cleaning and distributing solder paste prior printingprocess.THE SOLDER PASTE•Solder paste has been used in electronic assembly for more than 30 years now and it is a complex mixture of at least five elements: solder powder, flux vehicle ;(rosins/resins, activator, rheological control agents and solvent).1.0 Solder Powder- generally, they are widely available everywhere in theworld. Alloy composition depends on the need of manufacturing. Materialscience consideration are a key factor for the selection of alloy.•Alloys- A substance which are made of by melting two or moreelement/materials with different combination together. If twoelement are alloyed together, they are called binary alloy. If three,then is is called ternary alloy.Element Combination (%by weight)Tin (Sn)Lead (Pb)Silver (Ag)Copper (Cu)Alloy Name Type6040Sn60Pb40Binary6337Sn63Pb37Binary62362Sn62Pb36ag2Ternary3565Sn35Pb65Binary57385Sn57Pb38Ag5Ternary991Sn99Cu1Binary1.0 Solder Alloy composition- depends on customer requirements. Industry standard,it is important that the alloy composition passed requirements per J-STD-006. Most common alloy compositions are :Sn60Pb40, Sn63Pb37, Sn62Pb36Ag2, Sn96.5Ag3Cu0.5, Sn95.5Ag3.8Cu0.7 2.0 Should be spherical in nature.Among the solid shape,sphere has a lower has alower surface area per unitvolume. Thus, there arelower chances of surfaceoxidation compare to othersolid shape.1> Fines, 2>Satellites, 3>Elongated irregular particles, 4> Flattened particles, 5>loose conglomerates, 6>Welded conglomerates, 7> Angled surfaces, 8>Wrapped surfaces.3.0 PSD- Particle Size Distribution- powder size distribution range determine if the paste will pass through the stencil aperture opening. Too big cause a solder paste to clogged the stencil aperture, too small cause the solder paste to slump.Type Designation / J-Mesh Designation Particle Size Range Particle Size AverageSTD-005 for CrossReferenceType 2-200/+32575-4560Type 3-325/+50045-2535Type 4-400/+50038-2031Type 5-50025-1518Mesh Designation- the number defines how many opening in 1”X1” screen size had. If solder powder passes through a screen, it is describe as (-) minus else, (+) positive. 4.0 Oxide Content- refer to the a non-metallic compounds that might form on the powder, including carbonates and sulfides that could happen somewhere the process of alloy atomization to packaging.Atomization- A process of converting metal alloy into a very fine particles. Though there are a lot of way to atomized alloy, gas, centrifugal and ultrasonic atomization are very common since they have produce lower oxide on the solder powder.THE FLUX VEHICLESFlux formulations are the heart of solder paste manufacturer. Thus, detailedformulation information about this are hidden in public eyes.2.0 Rosin / Resin- At room temperature, rosin are solid, chemically inactive,an insulator, and soluble in solvents, but not in water. Rosin melts at about72°C (160°F) and the organic acids become active at around 108°C(225°F). Rosin are natural products while resin are synthetic and man-made. Resin are more preferred than rosin since the are much morecontrollable.3.0 Activators- also solid in room temperature. It is added to boost theperformance of the resin or rosin.4.0 Rheological additives- the most common additives are derivedfrom the castor oil. Castor oil are fatty acid composition used to furthercontrol the solder paste in term of printability and performance. Somesolder paste manufacturer are modifying castor oils but modificationare highly proprietary.5.0 Solvents-are added thus to make the solder paste more flexible tohandle and be mixed homogeneously .Solder paste are highly hygroscopic in nature. It tends to absorb moisture and water into the surrounding atmosphere. If moisture or water are absorb, the printing quality, solder powder materials and performance are greatly affected and deteriorated. This phenomena is detrimental to the process and product. Parallel to this, solder paste are also sensitive to heat and freezing temperature. Excessive heat causes separation of solder paste and flux. Freezing causes activator capability to descend thus reducing wetting ability.Transportation- should be as short as possible. Next day delivery should be practiced. Protect against excessive heat. Solder paste may be shipped in ice packs, dry ice, gel packs or other insulating material and should be discussed with SP Supplier.Storage- When received, check and stored ASAP. Solder paste should not remain on the receiving dock and should be stored in refrigeration at supplier recommendation. Refrigeration will double the shelf life of the material as compared to storing it at room temperature. Refrigeration also acts as an additional protector against unforeseen environmental changes. If solder paste is to be stored at room temperature, it is vital that the temperature and humidity be maintained at an appropriate level. Temperature should be per supplier recommendation.Solder Paste Inventory Control- To eliminate the cause for possible paste expiration, the use of the “first in, first out" (FIFO) inventory management is recommended — the oldest material in stock always should be used first.Thawing- Do not remove any seal, open or attempt to mix solder paste until it has warmed completely to room temperature. The typical warming or stabilization time for solder paste is four to eight hours. Do not force-warm solder paste, as this may cause flux separation or other rheological problems. A simple way to accomplish proper warming is to remove the solder paste from refrigeration the shift or the night before it will be used. If solder paste is used while it is cold, it will condense and draw moisture as it warms, possibly resulting in slump, spatter or other process defects. In addition, cold solder paste will have a dull appearance, be very difficult to stir, will not roll on the stencil or print correctly, and may stick to the squeegee blades.Solder Paste Mixing- It is necessary to ensure an even distribution (homogenous mixture) of any separated material throughout the paste. Manual or automatically stir the paste thoroughly in one direction depend on study (one to three minutes probably closer to one minute). If using spatula, never use to mixed with other type of SP.Printing Machine/Environmental Control -Variation to temperature and humidity is harmful to solder paste thus control is necessary. Control the temperature and humidity per solder paste suppliers recommendation or to plant internal study.Solder Paste Application Process -Controlling the level of solder paste on the stencil surface is vital to proper printing. It is better to add a smaller amount of paste more frequently than to add a large amount of paste less often. This method of control will ensure a constant turnover of paste, while keeping the freshest possible paste on the stencil.Squeegee刮 刀Spatula锡 浆 勺Every 60 minutes put the solder paste at the center.Long resting leads to poor printing due toharden solder paste每60分钟将锡浆往中间收集 一次,因为变硬的锡浆会影响 印刷 效果.Need to take out solder paste which unnecessary. Thesepaste gets harden and interfere to printing.除去不必要的锡浆 ,因为这地方的锡浆会变硬 而影响印刷效果在停产前和使用后 ,必须清洁 干净 .Must be cleaned after used, before long break or after completing production.Clean thoroughly after use使用过后彻底清洁丝 网StencilSTENCILThe stencil idea normally came from screen printing used in cloth illustration printing manufacturing. A screen mess had been applied with emulsionexposing only those area need to be printed. Drawback of using screen in solder paste is that control had been limited and use of metal squeegee is impossible.THE STENCIL“It takes a good stencil to get a good print, then automation helpsmake it repeatable”Anonymous •Stencil Materials- are selected based on cost and forming technology.•Materials used are brass, stainless steel, molybdenum, nickel, and plastic.•Stainless steel and brass are the most widely used materials inthe industry.•Molybdenum material had been promoted due to reportedimprovement in paste release from the stencil.•Nickel are a choice for electro-forming process but considerably costly.THE TECHNOLOGYChemical Etching ProcessCheapest method and a traditional manufacturing technology of stencil for majority of application. This is a subtracted process.1234Cleaning of metal clad 56Applying photo resist Imaging photo tool Developing Chemical EtchingRemoving photo resistChemical Etched Stencil is now ready for framing !!NOTE: Animation are for presentation purposes only. Deviation to the actual process might be noticed and seen.THE PROCESS1234Cleaning of metal clad 56Applying photo resist Imaging photo tool Developing Chemical EtchingRemoving photo resistProblem With Chemical Etch StencilChemical Etch stencil will exhibit a “hour glass profile”.Hour glass profile will hinders the smooth paste releaseto the stencil aperture hole.Other Common Problem With Chemical Etch Stencil Due to many process involve, variation was evident. Like most other, film shrink or expand relative to temperature and humidity. This cause accuracy problem and at the end printing problem. Tolerance can vary from 0.5 mils (12.7 microns) to as large as 2 mils (50.8 microns).Mis-registration of photo-film.Quality of chemically etched stencil = 1/Component Pitch.Laser Cut StencilA high cost form of stencil manufacturing. Like chemical etch, this is asubtracted process with higher accuracy of aperture hole to pad matching.Cutting is done in single side only thus repeatability was higher.The Process:Processing Gerber Data Cutting Image Inspection Framing DeliveryLaser Cut Stencil Common ProblemJagged aperture walls due to dross build-upElectropolishing -secondary microetching. This is done by placingchemically etch or laser cut stencil to atank filled with acidic solution andintroduce current to the solution foractivation. This process will remove thehigh points and rough points at the stencilsurface. Paste release will be good. Drawbacks:From this to thisTo shiny surface will reduce the coefficient offriction causing solder paste skipping. Skippinghappens when the solder paste is drag at thestencil top and rolling motion is not observed,Electroformed StencilA newest process of making an stencil and this is an additive process. This is a very high cost of stencil manufacturing though quality had been justified.Stencil thickness starts from zero and build to the desired thickness.1234Laminating a photosensitive dry film to a copper foil (0.25 mm thick)56Exposing to UV light for stencil pattern Developing where the apertureremain covered in copper mandrel.Put in the electroforming bath for nickel deposit.Removal of photo resist onthe aperture hole.Flexing.The ProcessElectroformed Stencil Common ProblemNickel were soft and it is more prone to damage but accuracy is higher.The stencil surface might betoo smooth that it will notallow the solder paste rollingmotion.Stencil Extra TreatmentElectro polishing - secondary micro etching. This is done by placing chemically etch or laser cut stencil to a tank filled with acidic solution and introduce current to the solution for activation.Nickel Plating - another additive process butnickel are deposit on a brass stencil material. Thisplating will only serve as a coating to smoothens thesurface and aperture wall for good paste release.Coating thickness range from 0.00030 to 0.00050inches (8 to 12 microns)Step-down/Step-up - A stencil treatment that willprovide a various paste deposition thickness. Usedfor product where a need of solder paste volumedeposit were fixed such as fine pitched on one sideand common component on the other side.THE STENCIL DESIGN GUIDELINESIPC-7525 provides general guidelines for solder paste stencil fabrication.In actual, aperture dimension follows different approaches from different person and uses.• Trial and Error - costly approach of determining the optimum range of aperture dimensions.• Inquiry to stencil manufacturer - they can only provide guidelines andrecommendations. Actual use and printing performance is not been given.• Experience - All rules are only guidelines. If it conforms and provide goodresult, it will be used as is otherwise new design with empirical dimensions aregiven.• Calculations - solder volume was calculated base on the actual solder filletrequired.Aperture Calculation Consideration - Response (Solder Volume)•Paste Release - The print-area ratio (PAR) is used as a guideline toquantify the paste-release capability of an aperture design, which also is shown in Figure 1. A PAR above 0.66 typically is acceptableIf stencil thickness was not given, formula above is used to compute such.•Solder Paste Metal Content - upon melting, the solder fillets will from solder joint. The volume will depends on the metal content of the solder paste used. Normally, metal content are in range of 85 to 91 percent.V =Xd sXds100 - XdfWhere:V = volume fraction of solder in solder paste.X = metal content (%w/w) of solder paste.ds = density of solder alloy.df = density of flux•Solder Paste Particle Size Distribution - solder paste alloy are atomized to form a powder. Sizes will depend on the the type of solder paste as shown in table below: (General Rule: minimum aperture width = 5 x (max. PSD)T y p eD e s ig n a tio n P e r J-S T D-005M e s hD e s ig n a tio nP e r A S T M-B214P a r tic le S iz eR a n g e inm ic r o n sP a r tic le S iz eA v e r a g e inm ic r o n sT y p e2-200/+32575–4560 T y p e3-325/+50045–2535 T y p e4-400/+50038–2031 T y p e5-50025- 1518• Aperture modification - If the aperture hole had been modified for some reason, component should stay in the PWB while in mounting process. Solder paste holding area might not be sufficient.•Tackiness of solder paste- A characteristic of solder paste that work to hold the components into into its place while in mounting process.Step-up / Step Down Design Consideration• Step-down Stencil - If there’s a need for a fine pitch printing but generally used thicker stencil to print other components. SHU2230 is one example of step downstencil.• Step-up Stencil - If there’s a need to print a thicker solder paste deposit to a small portion of the PWB. PWB utilizing module (WISMO, Wavecom modules) commonly used this kind of stencil. Generally, step-up stencil is much more expensive than that ofstep-down due to process involved. It needs thicker stencil area to scrape-out.K2K1ABITEM MIN MAXA0.130 mm (5 mils)B0.100 mm (4 mils)K1 2 mm (75 mils)K1 GRK20.65 mm (25 mils)(B x 36 )• NOTE: Data above are for design consideration and guideline only. Design varies per individual product study.A metal or rubber blade used in screen or stencil printing to wipe across the screen (stencil) to force solder paste through the aperture openings.Rubber Squeegee - The use of rubber squeegee into the production line causes wide variation on the quality performance. Rubber squeegeehardness depends on the aperture opening and should be measured using durometer. Too soft and it can cause “scooping effect”.Metal Squeegee - Common type of squeegee used in electronic industry due to its rigidity and strength. Metal squeegee are commonly made of stainless steel. Some are nickel plated to enhance solder paste printing rolling motion.Improved Metal Squeegee - In recent years, different innovation are implemented in squeegees. One here are squeegee tip metallurgical bonding process. Squeegees are infused with a special coatings on the tip causing a more smooth, low friction and more rigid squeegees.SQUEEGEES (SMART HEADS)Technology never stops. Researcher had made a quantum leap in advanced stencil printing technology. They had created rheometric pump print head.OTHERS:1.0 Closed-LoopTransducer PressureControl- Pressure issensed on the inside of thechamber walls for fluidpressure controlunattainable withconventional squeegeeblades. Software controlled,the chamber pressure isclosed-loop feedback intothe input cartridgesindependent of materialvolume.检查刮刀边沿是否平直,有无缺口和变形.Check the edge of the blade, should be straight, nocut and no deformation.金属刮刀 (METAL SQUEEGEE)有缺口的金属刮刀 (CUT METAL SQUEEGEE)缺口 (CUT)Side View側视图Use filler gauge here to measure any gap. Note thatthe squeegee should be perpendicular to granite stone.Filler gage should not be passing to any area in thesqueegee. 用塞尺测每一处缝隙，注意刮刀必须与平台垂直。

锡膏、红胶印刷培训教材在SMT （Suface Mount Technology ）工艺中，影响最终焊接品质的因素很多，其中，焊锡膏的印刷是最初的也是影响最大的一道工序。

连焊、虚焊、锡珠等现象都与此有关。

在实际印刷中钢网、焊锡膏、刮刀等几个方面的影响关系较大。

所以，有必要进行进一步的了解。

一、 锡膏2.铅锡焊膏的温度183O C至少183O C 才能熔化，形成液状体。

3.焊锡膏的评价，主要包括三个方面：锡膏的使用性能，金属粉末、焊剂。

成 份 焊料粉末 糊状焊剂 1.0 SN%锡 铅100%232O C C （1）O焊锡膏的评价主要为外观检测：①.焊膏的商标：包括制造商名称、产品名称标准分类号、批号、生产日期、合金比重、保存期等。

②.锡膏外观上没有硬块，合金粉末和焊剂应分布均匀。

4.焊锡膏的使用及保管：①.一般情况应遵循“先进先出”的基本原则，即采购一批锡膏，先用完这批之后，再采购，防止人为的保管期限过长，对于回储锡膏理应在第一时间全部优化先用完（但电脑主机板不使用回储锡膏，一定要用新采购锡膏）。

②保存温度2-10OC ，温度过低，锡膏会结晶起块，温度过高，助焊剂挥发影响可焊性。

③.锡膏从冰箱中拿出解冻需4小时。

④.使用前，要安全搅拌锡膏，通常为3分钟，使锡膏均匀防止颗粒太大堵住钢网孔。

⑤.对于开过盖的残留锡膏，在不使用时，瓶盖要紧闭，预防锡膏变干和氧化，延长在使用过程中的锡膏寿命。

⑥.不使用时，为保持锡膏的最佳状况，锡膏在网上的用量不要太多，以防变干及不必要的钢网堵孔。

⑦.不要把新旧锡膏同时装入一个瓶内，防止新锡膏补旧锡膏污染。

（3） ①.焊剂酸值测定 焊剂②.焊剂化物测定 ③.焊剂水溶物电导率测定 ④.焊剂铜腐蚀试验 ⑤.焊剂绝缘电阻测定 使 用 性 能 ①.外观 ②.印刷性 ③.粘性试验 ④.塌落度 ⑤.热熔后残渣干燥度⑥.锡球试验 ⑦.焊锡膏湿润性护展率试验 借助于相应的仪器设备金属粉末 （2）①.焊料重量百分比 ②.焊料成分测定③.焊料粒度分布 ④.焊料粉末形状 借助于相应的仪器设备。

PCB锡膏红胶印刷工培训教材PCB锡膏红胶印刷工培训教材1.印刷制程简介：印刷机是将带有粘性的锡膏通过钢板孔由刮刀通过压力将锡膏/红胶均匀的印刷到PCB上的一种工艺方法。

2.辅料及工具部分：2.1锡膏在表面贴装装配的回流焊接中，锡膏用于表面贴装元件的引脚或端子与焊盘之间的连接。

焊膏涂覆是表面组装技术一道关键工序，它将直接影响到表面组装件的焊接质量和可靠性。

焊膏是一种均质混合物，由合金焊料粉，糊状焊剂和一些添加剂混合而成的具有一定粘性和良好触变性的膏状体。

在常温下，焊膏可将电子元器件初粘在既定位置，当被加热到一定温度时（通常183℃）随着溶剂和部分添加剂的挥发，合金粉的熔化，使被焊元器件和焊盘连在一起，冷却形成永久连接的焊点。

对焊膏的要求是具有多种涂布方式，特别具有良好的印刷性能和再流焊性能，并在贮存时具有稳定性。

2.1.1 焊膏的保存及使用注意事项a.焊膏应以密封形式保存在恒温、恒湿的冰箱内，温度在约为（2—10）℃，温度过高，焊剂与合金焊料粉起化学反应，使粘度上升影响其印刷性；温度过低（低于0℃），焊剂中的松香会产生结晶现象，使焊膏形状恶化。

b. 焊膏使用时，应提前从冰箱中取出，写下时间、编号、使用者、应用的产品，并密封置于室温下，待焊膏达到室温时打开瓶盖。

如果在低温下打开，容易吸收水汽，再流焊时容易产行锡珠。

注意：不能把焊膏置于热风器、空调等旁边加速它的升温。

c.焊膏开封后，应用搅拌机或手工进行搅拌，使焊膏中的各成分均匀，降低焊膏的粘度。

锡膏搅拌注意事项：①机器搅拌：超过8小必须重新进行搅拌。

②人工搅拌：每次添加锡膏前用搅拌刀在容器中顺时针匀速搅拌至少30圈，搅拌过的锡膏必须达到以下要求方可使用：锡膏表面细腻，呈现金属光泽；用搅拌刀挑起锡膏，锡膏可拉丝长度保持在3-6cm，并具有一定的流动性。

d.锡膏添加标准：第一次添加1/2罐，以后每次1/10罐。

生产过程中需随时注意钢网上的锡膏量是否符合要求，定时添加锡膏，添加锡膏的位置距离钢网最前端开孔大于1cm，不允许锡膏渗入网孔处。