Effect of Interfacial Reaction in Sn-Ag-Cu Solder Alloy with Ni Addition

Watanabe, Hirohiko; Shimoda, Masayoshi; Hidaka, Noboru; Shohji, Ikuo

doi:10.4028/www.scientific.net/kem.462-463.247

Cited by 8 publications

(6 citation statements)

References 8 publications

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“…After aging at 120℃ for 6 weeks, the reaction layer which is composed of two Cu-Sn compounds layers was observed regardless of flux type. These layers seem to be Cu 6 Sn 5 and Cu 3 Sn [6]. The Cu 6 Sn 5 and Cu 3 Sn layers form on the solder side and the Cu side, respectively.…”

Section: A Micrstuructures Of Solder Ball Jointsmentioning

confidence: 97%

“…On the contrary, solder fracture increased upon aging and thus it was the major fracture mode in the joint with epoxy-based flux. On the basis of EPMA mapping analysis of fracture surfaces, it was clarified that IMC fracture corresponds to fracture at the solder/ (Cu,Ni) 6 not sufficient, IMC does not form uniformly at the joint interface. In such joint, fracture easily occurs at the joint interface.…”

Section: A Micrstuructures Of Solder Ball Jointsmentioning

confidence: 99%

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Impact properties of Sn-3Ag-0.5Cu solder ball joint with epoxy-based flux

Ishiyama

Shohji

Ganbe

et al. 2014

2014 International Conference on Electronics Packaging (ICEP)

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Epoxy-based flux has been developed to improve the impact reliability of the lead-free solder ball joint. The improvement effect of impact properties of the solder ball joint with epoxy-based flux was examined. Residue of epoxybased flux is left around the solder ball joint and reinforces the joint. Thus interfacial fracture is inhibited and solder fracture increases. The solder ball joint with epoxy-based flux has superior shear strength and impact toughness compared with the joint fabricated with conventional rosin-based flux. Keywords-epoxy-based flux; solder ball joint; Sn-3Ag-0.5Cu; ball shear test; impact properties I.

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Section: A Micrstuructures Of Solder Ball Jointsmentioning

confidence: 97%

Section: A Micrstuructures Of Solder Ball Jointsmentioning

confidence: 99%

Impact properties of Sn-3Ag-0.5Cu solder ball joint with epoxy-based flux

Ishiyama

Shohji

Ganbe

et al. 2014

2014 International Conference on Electronics Packaging (ICEP)

Self Cite

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“…Alloying Al element refines the β-Sn phase particles in SAC105 solder, inhibits the formation of Ag3Sn and Cu6Sn5 IMCs, and forms new Ag3Al and Al2Cu IMCs, thereby significantly increasing the strength and decreasing the ductility [43] . Alloying Ni atoms generate a more dense and stable (Cu, Ni)6Sn5 IMC interface layer between solder and Cu-based substrate, which becomes a barrier layer against the growth of brittle Cu3Sn IMC and hence improves the drop resistance [44] . However, big size IMCs are usually very brittle, meaning strengthening by the precipitation mechanism might impair the ductility when IMCs are big in size.…”

Section: Lead-free Solder Alloysmentioning

confidence: 99%

Divide and conquer： Machine learning accelerated design of lead-free solder alloys with high strength and high ductility

Zhang

Wei

Cao

et al. 2023

Preprint

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The attainment of both high strength and high ductility is always the goal for structure materials, because the two properties generally are mutually competing, called strength-ductility trade-off. Nowadays, the data-driven paradigm combined with expert domain knowledge provides the state-of-the-art methodology to design and discovery for structure materials with high strength and high ductility. To enhance both strength and ductility, a joint feature is proposed here to be the product of strength multiplying ductility. The strategy of “divide and conquer” is developed to solve the contradictory problem, that material experimental data of mechanical behaviors are, in general, small in size and big in noise, while the design space is huge, by a newly developed data preprocessing algorithm, named the Tree-Classifier for Gaussian Process Regression (TCGPR). The TCGPR effectively divides an original dataset in a huge design space into three appropriate sub-domains and then three Machine Learning (ML) models conquer the three sub-domains, achieving significantly improved prediction accuracy and generality. After that the Bayesian sampling is applied to design next experiments by balancing exploitation and exploration. Finally, the experiment results confirm the ML predictions, exhibiting novel lead-free solder alloys with high strength high ductility. Various material characterizations were also conducted to explore the mechanism of high strength and high ductility of the alloys.

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“…Although the Sn-Ag-Cu solders are accepted widely but there still some room for improvements. Many researchers studied the addition of minor elements such as Ni, Zn, Co, Sb and Bi that can improve the properties of Sn-Ag-Cu solders [2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Intermetallic Study on the Modified Sn-3.5Ag-1.0Cu-1.0Zn Lead Free Solder

Mayappan

Abidin

Ghani

et al. 2016

MSF

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Due to environmental concerns, lead-free solders were introduced to replace the lead-based solders in microelectronics devices technology. Although there are many lead-free solders available, the Sn-Ag-Cu solders are considered the best replacement due to their good wettability and joint strength. Although the Sn-Ag-Cu solders are accepted widely, but there are still some room for improvement. In this study, 1wt% Zn, which can be considered high percentage for a dopant, was added into the solder via powder metallurgy route. The effects of adding this dopant into the Sn-3.5Ag-1.0Cu solder on the interface intermetallic and thickness were investigated. The intermetallics phases formed were observed under Scanning Electron Microscope (SEM) and their thicknesses were measured. The SEM results showed the presence of Cu6Sn5, Cu3Sn and (Cu,Zn)6Sn5 intermetallics. It can be concluded that Zn behaved as retarding agent and significantly retarded the growth of Cu-Sn intermetallics.

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Effect of Interfacial Reaction in Sn-Ag-Cu Solder Alloy with Ni Addition

Cited by 8 publications

References 8 publications

Impact properties of Sn-3Ag-0.5Cu solder ball joint with epoxy-based flux

Impact properties of Sn-3Ag-0.5Cu solder ball joint with epoxy-based flux

Divide and conquer： Machine learning accelerated design of lead-free solder alloys with high strength and high ductility

Intermetallic Study on the Modified Sn-3.5Ag-1.0Cu-1.0Zn Lead Free Solder

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