Melting and Joining Behavior of Sn/Ag and Sn-Ag/Sn-Bi Plating on Cu Core Ball

Uenishi, Koji; Kohara, Yasuhiro; Sakatani, Shigeaki; Saeki, Toshio; Kobayashi, Kojiro F.; Yamamoto, Masahiro

doi:10.2320/matertrans.43.1833

Cited by 27 publications

(10 citation statements)

References 11 publications

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“…Similar to the literature results, [21][22][23] this study finds that the usage of a Cu-cored solder ball can effectively inhibit regrouping of the (Au x Ni 1Àx )Sn 4 phase in the BGA solder joint. In addition, it is also shown that the inhibition is effective for the Cu core of diameters ranging from 500 mm to 700 mm.…”

Section: Solid-state Annealingsupporting

confidence: 90%

“…However, the size effect is not discussed in the previous studies. [21][22][23] Therefore, three sizes of the Cu sphere, 500 mm, 650 mm, and 700 mm, are used in this study to fabricate the Cu-cored solder ball that has a common diameter, 760 mm, and by which the size effect of the Cu sphere is examined. Eutectic SnPb solder alloy is used to form the outer layer of the Cu-cored solder ball.…”

Section: Introductionmentioning

confidence: 99%

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Interfacial reactions and mechanical properties of ball-grid-array solder joints using Cu-cored solder balls

Chen

Lin

2006

J. Electron. Mater.

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Interfacial reactions and mechanical properties of the ball-grid-array (BGA) solder joints using monolithic eutectic SnPb and Cu-cored solder balls after reflow and solid-state annealing were investigated. The Cu cores of three different sizes were used in the solder joints. The incorporation of a Cu core into the BGA solder joint effectively inhibits the (Au1-xNix)Sn-4 regrouping and the (Cu1-x-yAuxNiy)(6)Sn-5 phase is formed at the joint interface instead. Growth of the intermetallic compounds formed in the monolithic and Cu-cored solder joints approximately obeys the parabolic law. In the Cu-cored solder joints, the larger the Cu core is, the slower the intermetallic compounds grow. The size effect of the Cu core on the intermetallic compound growth results from the inconsistent amount of the outer solder layer. Shear and tensile strengths of the Cu-cored solder joints decrease with increasing solid-state annealing time, and do not have a noticeable relationship with the Cu-core size. Shear and tensile tests also show that the mechanical strength of the Cu-cored solder joint is better than that of the monolithic solder joint

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Section: Solid-state Annealingsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Interfacial reactions and mechanical properties of ball-grid-array solder joints using Cu-cored solder balls

Chen

Lin

2006

J. Electron. Mater.

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“…2, 3) The implicit requirements for industrialization of the copper spherical particle are its size variation, size controllability, size uniformity and mass-productivity. Since the demanded particle size is dependent on the latest particle array technique, the necessary size variation in future would be at least down to below 100 mm in diameter.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Monosized Copper Micro Particles by Pulsated Orifice Ejection Method

Takagi

Masuda

Suzuki³

et al. 2006

Mater. Trans.

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A pulsated orifice ejection method (POEM) has attained mass-production of monosized spherical micro particles of solder. In this method, the micro droplet melts are emitted from a small orifice by applying both mechanical pulses and constant gas pressure to the melt. This paper reports further development of this method for alternative monosized copper spherical particles with a size in the order of 100 mm. The possibility of the droplet formation was strongly determined by the wettability of orifice material to the melt. Droplets of molten copper could be stably formed at a particularly high contact angle. Using an orifice with the low wettability, monosized copper particles are obtained in a wide range of process parameters such as the rod displacement and gas pressure. Their particle size was also clarified to vary with changes in the two parameters. Especially, the gas pressure may linearly control the particle size from 75 to 120 mm, which is equivalent to 75 to 120% of the orifice diameter. All monosized particles produced by the POEM have an excellent mono-dispersivity less than 2.0 in standard deviation.

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“…Therefore, a Cu core ball is a candidate for high-power and high-performance applications. 18 A smaller size of core ball, less than 100 lm, is required for the chip-scale package. In view of the difficulty of producing a Cu core ball with a size of <100 lm, an egg-type core solder ball can be obtained by a very simplified fabrication method, as shown in Fig.…”

Section: Powder Of Pb-free Soldersmentioning

confidence: 99%

Microstructural Evolution of Alloy Powder for Electronic Materials with Liquid Miscibility Gap

Ohnuma

Saegusa

Takaku

et al. 2008

Journal of Elec Materi

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The microstructure of powders that are applicable for electronic materials were studied for some systems in which there is a liquid miscibility gap. The characteristic morphologies of an egg-like core type and a uniform secondphase dispersion are shown in relation to the phase diagram, where thermodynamic calculations are a powerful tool for alloy design and the prediction of microstructure. Typical examples of microstructural evolution and properties of Pb-free solders and Ag-based micropowders with high electrical conductivity produced by a gas-atomizing method are presented.

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Melting and Joining Behavior of Sn/Ag and Sn-Ag/Sn-Bi Plating on Cu Core Ball

Cited by 27 publications

References 11 publications

Interfacial reactions and mechanical properties of ball-grid-array solder joints using Cu-cored solder balls

Interfacial reactions and mechanical properties of ball-grid-array solder joints using Cu-cored solder balls

Preparation of Monosized Copper Micro Particles by Pulsated Orifice Ejection Method

Microstructural Evolution of Alloy Powder for Electronic Materials with Liquid Miscibility Gap

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