Papers about surface mount
by Dr. Ning-Cheng Lee , Iris Artaki, James Slattery, John R. Sovinsky, Paul T. Vianco
Environmental and toxicity concerns related to the use of lead have initiated the search for acceptable, alternate joining materials for electronics assembly. This paper describes a novel
lead-free solder designed as a "drop in" replacement for common tin/lead eutectic solder. The physical and mechanical properties of this solder are discussed in detail with comparison to tin/lead eutectic solder. The performance of this solder when used for electronics assembly is discussed and compared to other common solders. Fatigue testing results are reported for thermal cycling electronics assemblies soldered with this lead-free composition. The paper concludes with a discussion on indium metal availability, supply and price.
pb-free, surface mount, SMT, solder paste, reflow, electronic, lead-free, soldering, solder
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Posted on 1 Jan 2009
by Sunil Chhabra, Sergio Porcari, Steven Rocco Marongelli, Dr. Richard Ludwig, Dr. Ning-Cheng Lee
In order to achieve ultra-fine dot solder paste dispensing, both solder material and dispensing equipment have to be optimized. Dispensability of solder paste was evaluated in terms of “dispensing rate”, consistency of dispensing rate, and the stability of dispensing rate with time. Within the given conditions, threshold values for dispensability seem to exist for viscosity, powder size, and metal content. Small nozzle inner diameter is definitely needed to deliver a small dot size. Archimedes Metering Valve shows a greater flexibility in metering the volume than Positive Displacement Pump, primarily due to a greater sensitivity in dispensing volume to variation in pressure, and nozzle ID, besides being very sensitive to variation in encoder count. For success in high speed ultra-fine dot dispensing process, solder pastes with a low viscosity, small powder size, low metal content, and a high thixotropy are desired to deliver a high dispensing throughput. Controlwise, a high pressure and high encoder count may be promising. The consistency improves with increasing metal content, thixotropy, pressure, nozzle size, and encoder count. Viscosity, powder size, and delay time appear to have negligible effect on consistency. The stability increases with increasing flux activation temperature, and is expected to be poor for low thixotropy and low viscosity. Large powder size may cause immediate clogging, while small powder size may cold weld under repeated pressure cycling using pneumatic pump systems. In general, a very careful design and tight control of parameters discussed in this work has to be implemented in order to succeed in ultra-fine dot solder paste dispensing.
lead-free, pb-free, piston, Archimedes, fine dot, pump, SMT, surface mount, flux, solder paste, dispensability, dispensing
[Permanent Link to this Paper ]
Posted on 1 Jan 2009
by Dr. Benlih Huang, Dr. Ning-Cheng Lee
Tombstoning of SnAgCu is affected by the solder composition. At vapor phase soldering, both wetting force and wetting time at a temperature well above the melting point have no correlation with the tombstoning behavior. Since tombstoning is caused by unbalanced wetting force, the results suggest that the tombstoning maybe dictated by the wetting at the onset of paste melting stage. A maximal tombstoning rate is observed at 95.5Sn3.5Ag1Cu. The tombstoning rate decreases with increasing deviation in Ag content from this composition. DSC study indicates that this is mainly due to the increasing presence of pasty phase in the solders, which is expected to result in a slower wetting speed at the onset of solder paste melting stage. Surface tension plays a minor role, with lower surface tension correlates with a higher tombstoning rate. SnAgCu composition with a Ag content lower than 3.5%, such as 2.5Ag, is more favorable in terms of reducing tombstoning rate with minimal risk of forming AgSn intermetallic platelet.
pb-free, tombstoning, solder, soldering, solder paste, flux, lead-free, surface mount
[Permanent Link to this Paper ]
Posted on 4 Mar 2010
by Dr. Benlih Huang, Dr. Ning-Cheng Lee
Effect of solder alloy composition and properties on tombstoning of SnAgCu has been investigated. Both wetting force and wetting time at a temperature will above the melting point have no correlation with the tombstoning behavior observed at vapor phase soldering. Since tombstoning is caused by unbalanced wetting force, this unbalanced wetting force may occur at the onset of melting DSC study indicates that the tombstoning rate decreases with increasing pasty temperature range and increasing mass fraction of solid in solder at onset of melting. This slower wetting in turn results in a more balanced wetting force and accordingly reduces the tombstoning. The mass fraction of solid may be the more essential factor. Surface tension also plays a role, with lower surface tension correlates with a higher tombstoning rate. Tombstoning of SnAgCu can be regulated by the solder composition. A maximal tombstoning rate is observed a 95.5Sn3.5Ag1Cu. The tombstoning rate decreases with increasing deviation in Ag content from this composition, particularly toward the end of lower Ag content. SnAgCu composition with a Ag content lower than 3.5%, such as 2.5Ag, is more favorable in terms of reducing tombstoning rate with minimal risk of forming Ag3SN intermetallic platelet.
tombstoning, solder, soldering, solder paste, flux, lead-free, surface mount, pb-free
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Posted on 4 Mar 2010
by Dr. Arnab Dasgupta, Dr. Benlih Huang, Dr. Ning-Cheng Lee
For SnAgCu solder, the voiding rate at microvia was studied with the use of simulated microvia, and was the lowest with 95.5Sn3.8Ag0.7Cu and 95.5Sn3.5Ag1Cu, and increased with further decrease in Ag content. Results indicated that voiding at microvia was governed by via filling and exclusion of fluxes. The voiding rate decreased with decreasing surface tension and increasing wetting force which in turn was dictated by the solder wetting or spreading. Both low surface tension and high solder wetting prevented the flux from being entrapped within microvia. A fast wetting speed might also facilitate reducing voiding. However, this factor was considered not as important as the final solder coverage area.
pb-free, reflow, surface mount, microvia, voiding, void, lead-free, soldering, solder
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Posted on 4 Mar 2010
by Dr. Ning-Cheng Lee
In this article, the interconnect infrastructure for SMT, BGA, and
flip chip are reviewed, with particular emphasis on the bonding technology. Interconnection technologies are the vital part of electronic packaging. Obviously, interconnections of SMT industry, from components to boards to board-level assembly methods, are the most mature and well established technology. BGA, on the other hand, intelligently utilizes the knowledge of SMT interconnections and re-engineers the design through combining the strength of various interconnect technologies and successfully comes up with a great family of versatile packages. Flip chip interconnects, while also trying to incorporate existing technology, place a good deal of emphasis on the polymeric systems, and very much develop a new arena of interconnect concepts and processes. The impact of flip chip interconnect progress is expected to ripple through the rest of electronic industries in the near future.
SMT, BGA, Flip Chip, CSP, Interconnection, surface mount, ball grid array, Packaging, assembly, soldering, pb-free, lead-free
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Posted on 1 Jan 2009
