Effects of Trace Amounts of Rare Earth Additions on Microstructure and Properties of Sn-Bi-Based Solder Alloy

Dong, Wenxing; Shi, Yaowu; Xia, Zhidong; Liu, Yongping; Guo, Fu

doi:10.1007/s11664-008-0458-8

Cited by 111 publications

(55 citation statements)

References 21 publications

(34 reference statements)

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“…In addition, the average approximate concentration of Sn, Cu, and Zn in the IMC layer adjacent to the Cu is also obtained which are 24, 56, and 20, respectively. These results which are consistent with the elemental-mapping analysis suggest that the IMC layer adjacent to the solder is a Cu 5 (Zn,Sn) 8 IMC layer while the IMC layer adjacent to the Cu substrate a Cu 6 (Sn,Zn) 5 IMC layer. The formation of Cu 6 (Sn,Zn) 5 IMC between Cu 5 (Zn,Sn) 8 IMC layer and the Cu substrate may be attributed to the penetration of Sn atoms through the Cu 5 (Zn,Sn) 8 IMC layer during the long solid-state reaction to form Cu 6 (Sn,Zn) 5 IMC.…”

Section: Resultssupporting

confidence: 89%

“…The elemental analysis of the thermally aged solder joints revealed that a layer of Cu 6 (Sn,Zn) 5 IMC was also formed between Cu 5 (Zn,Sn) 8 and the Cu substrate after thermal aging for 1008 h.…”

Section: Discussionmentioning

confidence: 99%

“…Eutectic Sn-Bi solder has been recognized as a promising low-temperature lead-free solder [1][2][3] , due to its low melting point (138 C 4) ) and higher tensile strength when compared to that of eutectic Pb-Sn solder 5) . Low-temperature soldering allows the fabrication of inexpensive printed circuit boards without high-temperature resistance.…”

Section: Introductionmentioning

confidence: 99%

“…In the study by Li et al 18) , it was found that upon the addition of 1 mass% Zn 19) reported the effect of addition of 0.7 mass% Zn to the Sn-Bi solder during liquid-state aging. In this study, the CuZn IMC was formed on top of a Cu 6 (Sn, Zn) 5 IMC layer that acted as a barrier layer and suppressed the growth of the Cu 6 (Sn, Zn) 5 IMC layer during liquid-state aging.…”

Section: Introductionmentioning

confidence: 99%

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Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

et al. 2016

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A comparative study of the formation, growth, and morphology of the interfacial intermetallic compounds (IMCs) of the eutectic Sn-Bi and Sn-Bi-Zn solder joints was conducted, and the shear strengths of the two solder joints were evaluated. The cross-sectional microstructures of the joints were investigated and the fracture surfaces of the joints were examined after the shear tests. The results of the microstructural analysis of the joints indicated that the addition of Zn suppressed the growth of the interfacial IMCs signi cantly after both re ow and thermal aging. Although the shear-test results indicated that the addition of Zn decreased the shear strength of the Sn-Bi solder joint, the fracture surface examination after the shear tests revealed the cause of the degradation of the shear strength and a possible solution to prevent this degradation is suggested in the paper.

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Section: Resultssupporting

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

et al. 2016

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“…Sn-Pb solders [12,13]. In previous reports, Sn-58Bi solder alloys undergoing tensile tests have shown relatively high intensity values compared to other solder alloys; this indicates that brittleness is high, and fracturing has been observed during plastic deformation or elastic deformation [14,15]. The plastic deformation of Sn-58Bi solder can be improved by reducing the deformation rate.…”

Section: Introductionmentioning

confidence: 95%

Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Hwang¹,

Jeong²,

Lee³

2018

Korean J. Met. Mater.

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We used Sn-58Bi and Cu wires to investigate the effects of variable conditions (such as pressure and wire diameter) on the formation of three-component nanoparticles. In the synthesis of the three-component nanoparticles, pulsed wire discharge was used to sublimate the wires. In this system, the K factor is described as Ec/Es, where Ec and Es are respectively the applied energy and the sublimation energy of the system. Experiments were conducted in a N2 atmosphere using the following parameters: voltage of 6 kV, pressure of 50-100 kPa, and Cu wire diameters of 0.1 and 0.2 mm. X-ray diffraction and field emission scanning electron microscopy were employed for structural analysis, particle size distribution analysis, collection rate, and composition studies of the nanoparticles.†

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Bismuth‐Doped Ceria, Ce_0.90Bi_0.10O₂: A Selective and Stable Catalyst for Clean Hydrogen Combustion

Beckers¹,

Lee²,

Rothenberg³

2009

Adv Synth Catal

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Bismuth-doped cerias are successfully applied as solid "oxygen reservoirs" in the oxidative dehydrogenation of propane. The lattice oxygen of the ceria is used to selectively combust hydrogen from the dehydrogenation mixture at 550 8C. This process has three key advantages: it shifts the dehydrogenation equilibrium to the desired products side, generates heat, aiding the endothermic dehydrogenation, and simplifies product separation (water vs. hydrogen). Furthermore, the process is safer, since it uses the catalysts lattice oxygen instead of gaseous oxygen. We show here that bismuth-doped cerias are highly active and stable towards hydrogen combustion, and explore four different approaches for optimising their application in the oxidative dehydrogenation of propane: first, the addition of extra hydrogen which lowers hydrocarbon conversion by suppressing both combustion and coking; second, the addition of tin which completely inhibits coking; third, the addition of platinum which increases selectivity, but at the expense of lower activity. The best results are obtained through tuning the reaction temperature. At 400 8C, high activity and selectivity were obtained for the bismuth-doped ceria Ce 0.90 Bi 0.10 O 2 . Here, 90% of the hydrogen feed is converted at 98% selectivity. This optimal reaction temperature can be rationalised from the hydrogen and propene temperature-programmed reduction (TPR) profiles: 400 8C lies above the reduction maximum of hydrogen, yet below that of propene. That is, this temperature is sufficiently high to facilitate rapid hydrogen combustion, but low enough to prevent hydrocarbon conversion.

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Effects of Trace Amounts of Rare Earth Additions on Microstructure and Properties of Sn-Bi-Based Solder Alloy

Cited by 111 publications

References 21 publications

Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Bismuth‐Doped Ceria, Ce_0.90Bi_0.10O₂: A Selective and Stable Catalyst for Clean Hydrogen Combustion

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Effects of Trace Amounts of Rare Earth Additions on Microstructure and Properties of Sn-Bi-Based Solder Alloy

Cited by 111 publications

References 21 publications

Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

Effect of Zn Addition on Interfacial Reactions Between Sn-Bi Solder and Cu Substrate

Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Bismuth‐Doped Ceria, Ce0.90Bi0.10O2: A Selective and Stable Catalyst for Clean Hydrogen Combustion

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Product

Resources

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Bismuth‐Doped Ceria, Ce_0.90Bi_0.10O₂: A Selective and Stable Catalyst for Clean Hydrogen Combustion