2009
DOI: 10.1016/j.microrel.2008.10.001
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Alloying modification of Sn–Ag–Cu solders by manganese and titanium

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Cited by 67 publications
(35 citation statements)
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“…Thus, the additions are suitable for studying the effect of nucleant particles at near-constant Q. with Ti, Co, and Pt additions. This strongly reduced ΔTn with these 7 additions is consistent with past work [38,40,72] and indicates that the addition levels were suitable. By comparing Figure 10(A) and (B) it can be seen that there is no simple correlation between undercooling and grain size.…”
Section: The Influence Of Nucleant Particles At Near-constant Qsupporting
confidence: 89%
See 1 more Smart Citation
“…Thus, the additions are suitable for studying the effect of nucleant particles at near-constant Q. with Ti, Co, and Pt additions. This strongly reduced ΔTn with these 7 additions is consistent with past work [38,40,72] and indicates that the addition levels were suitable. By comparing Figure 10(A) and (B) it can be seen that there is no simple correlation between undercooling and grain size.…”
Section: The Influence Of Nucleant Particles At Near-constant Qsupporting
confidence: 89%
“…Further work is required to confirm the heterogeneous nucleation mechanisms with Zn, Ti, and Mn additions. It may be that Ti2Sn3 and MnSn2 are heterogeneous nucleants for βSn [72] although this has not been proved yet and the fact that Mn additions did not result in significant grain refinement ( Figure 9 and Figure 10) but did contain numerous MnSn2 particles ( Figure 11) suggests that a detailed study on the influence of Mn is required. Similarly, a detailed study is required to identify the heterogeneous nucleants introduced by Zn additions.…”
Section: The Influence Of Nucleant Particles At Near-constant Qmentioning
confidence: 99%
“…In all cases, the nucleation undercooling of βSn was relatively high and variable and the addition of 0.05wt%Ni or 1.5-14wt%Bi to Sn-0.7Cu did not have any clear influence on the undercooling. We note that this is in contrast to various other additions, such as Zn [53,54], Al [53], Mn [55], Ti [55], Pt or Pd [56] or Co [54,57] which strongly reduce the βSn nucleation undercooling in Sn-Cu, Sn-Ag and Sn-Ag-Cu solders. As can be seen in Figure 8, the joints with up to 5wt%Bi solidified with near-columnar growth of βSn from the Cu6Sn5 layer.…”
Section: Influence Of Bi Additions On Nucleation Undercooling For βSnmentioning
confidence: 63%
“…[12][13][14][15][16][17][18][19][20] Anderson and co-workers have examined a wide range of additions to SAC alloys; Al (0.05 wt.%), Zn ( ‡0.21 wt.%), and Mn ( ‡0.1 wt.%) were each found to reduce b-Sn undercoolings to 2-4°C, and to reduce, or eliminate, the formation of Ag 3 Sn proeutectic blades. The early studies were not able to identify the cause of the observed benefits from the micro-alloying additions, but did state that the specific micro-alloying additions were chosen because of their substitutional solubility in Cu and with the goal of enhanced nucleation of primary Cu 6 Sn 5 from which the b-Sn could then nucleate.…”
Section: Inoculation Of Tin-based Alloysmentioning
confidence: 99%
“…This lack of microstructure control has motivated significant research on the effects of minor alloy additions to SAC or other binary Sn-based alloys on Sn nucleation over a number of years. [12][13][14][15][16][17][18][19][20] In contrast to circuit board assembly solders in which many high-Sn alloys are available commercially, Au-based eutectics (Au-Sn, Au-Si, Au-Ge) are the dominant Pb-free alloys used for high-temperature soldering applications, but Fig. 1 Two differing projections of the liquidus surface of the Sn-Ag-Cu ternary system.…”
Section: Introductionmentioning
confidence: 99%