Voiding and Reliability of Assembly of BGA with SAC and 57Bi42Sn1Ag Alloys

Liu, Yan; Keck, Joanna; Page, Erin; Lee, Ning-Cheng

doi:10.4071/isom-2013-ta46

Cited by 3 publications

(1 citation statement)

References 4 publications

(8 reference statements)

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“…[12,23,34] Optimal refl ow profi les are a key factor for mixing and solder joint collapse height as a function of peak temperature. [16,18,35,36] Anselm et al [38]. has presented extensive work of the relationship of mixed SAC/SnBi alloy assemblies including results showing the Bismuth mixing with various peak temperatures and the associated shear strength associated with the microstructures of these mixed solder joints.…”

Section: Literature Review Prior Low Temperature Solder Studiesmentioning

confidence: 99%

Properties of Mixing SAC Solder Alloys with Bismuth-Containing Solder Alloys for a Low Reflow Temperature Process

Swanson,

Anselm

2023

Journal of SMT

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The subject of extensive research has been the establishing of lower temperature soldering of electronic assemblies that are similar to the once common yet still preferred eutectic Tin-Lead (SnPb) soldering processes that are below 217˚C. This research measured and compared the mixing mechanisms of paste and ball dissolution. Mixed soldered assemblies will have different dissolution results that are dependent on the peak reflow temperature. The hypothesis for this experiment was to determine the relationship of various times above the melting point of low temperature solders containing Bismuth. The results measured are from solder joints of both SAC305 and Bismuth containing solders formed at lower process temperatures compared to the standard high temperatures which peak at 230˚C-260˚C. The Bismuth containing solders evaluated start with the highest to lowest weight percentage of Bismuth, the eutectic 58Bismuth/42Tin (58Bi/42Sn), 57Bi/42Sn/1Ag and a propriety alloy that has a lower Bismuth content along with various micro alloys, defined as 40-58Bi/Sn/X (X representing proprietary micro alloys or doping). The assembly was with an 18mil 96.5Tin/3.0Silver/0.5Copper (SAC305) solder ball mixed with each solder paste. These solder alloys were exposed to three different peak temperatures 180˚C, 195˚C, 205˚C. Another reflow profile attribute of focus was times above 138˚C - the melting point of the eutectic Sn58Bi alloy, this term used throughout the study is referred to Time Above Melting (TAM). The ball and paste assembly used the times above melting of 120sec and 240sec to represent process extremes and verify their significance on improving mixing level results. The average mixing % levels were recorded and compared for each solder joint combination to test the theory that the solder paste solidifies during the time above melting (TAM) within the reflow oven. [1] This experiment effectively demonstrates that the reflow profile parameter for time above melting has limited effectiveness in additionally mixing the paste with the BGA solder ball. Optimization of mixing percentages will need to be achieved by optimizing the paste and ball volumes.

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Section: Literature Review Prior Low Temperature Solder Studiesmentioning

confidence: 99%

Properties of Mixing SAC Solder Alloys with Bismuth-Containing Solder Alloys for a Low Reflow Temperature Process

Swanson,

Anselm

2023

Journal of SMT

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Lead-Free Soldering

Lee¹

2016

Materials for Advanced Packaging

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Strength and Isothermal Fatigue Resistance of SnBi/SnAgCu Joints Reflowed at Low Temperatures

Yadav

Alghoul

Thekkut

et al. 2021

Journal of Electronic Packaging

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Soldered microelectronics assemblies may have to survive a variety of mechanical loads in repeated drops, cyclic bending, or vibration. A very large body of work has addressed the isothermal fatigue performance of SnAgCu solder joints. The present work offers a general assessment of the achievable performance of so-called hybrid solder joints formed by soldering with eutectic SnBi or SnBiAg to SnAgCu bumps on area array components. This allows for soldering at much lower temperatures than with SnAgCu alone, but the deformation and damage properties of the resulting structures depend strongly on details of the design and process. A peak reflow temperature of 175C was shown to be sufficient to ensure that the life of the joints remains limited by fatigue of the unmixed SnAgCu near the component. However, a higher effective stiffness of the mixed region near the substrate means that the life will be lower by 45%.

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Voiding and Reliability of Assembly of BGA with SAC and 57Bi42Sn1Ag Alloys

Cited by 3 publications

References 4 publications

Properties of Mixing SAC Solder Alloys with Bismuth-Containing Solder Alloys for a Low Reflow Temperature Process

Properties of Mixing SAC Solder Alloys with Bismuth-Containing Solder Alloys for a Low Reflow Temperature Process

Lead-Free Soldering

Strength and Isothermal Fatigue Resistance of SnBi/SnAgCu Joints Reflowed at Low Temperatures

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