표면마무리를 위한 Sn-2.5Cu 합금 도금막의 특성

김주연; 배규식; Ju-Youn Kim; Kyoo-Sik Bae

Korean Journal of Materials Research, Vol.13, No.2, 133-136, February, 2003

DOI10.3740/MRSK.2003.13.2.133 Export Citation

표면마무리를 위한 Sn-2.5Cu 합금 도금막의 특성

Characteristics of Electroplated Sn-2.5Cu Alloy Layers for Surface Finishing

김주연, 배규식^{1, †}

한양대학교 재료공학부
¹수원대학교 전자재료공학과

Ju-Youn Kim, and Kyoo-Sik Bae^{1, †}

Division of Materials Science and Engineering, Hanyang University, Korea
¹Department of Electronic Materials Engineering, The University of Suwon, Korea

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Sn-2.5Cu alloy layers were deposited on the Alloy 42 lead-frame substrates by the electroplating method, and their microstructures, adhesion strength, and electrical resistivity were measured to evaluate the applicability of Sn-Cu alloy as a surface finishing material of electronic parts. The Sn-2.5Cu layers were electroplated in the granular form, and composed of pure Sn and Cu 6 Sn 5 intermetallic compound. Surfaces of the electroplated Sn-2.5Cu layers were rather rough and also the thickness variance was large. The adhesion strength of the Sn-2.5Cu electroplated layers was highly comparable to that of the electroplated Cu alloy layer and the electrical conductivity was about 10 times higher than the pure Sn. After the 20 0 ? C 30 min. annealing of the electroplated Sn-2.5Cu layers, the surface roughness was reduced, and adhesion strength and conductivity were improved. These results showed the Sn-Cu alloys can be used as an excellent surface finishing material.

Keywords:Sn-Cu alloy;Electroplating;Surface finishing materials;surface roughness;adhesion strength

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[1] Morawska Z, Koziol G, Advancing Microelectronics, 28(3), 9 (2001)

[2] Xie J, Pecht M, Advanced Packaging, 39 (2001)

[3] Bidin R, Tagapulot R, Lao CND, Manalac R, Advanced Packaging, 29 (2001)

[4] Tanaka H, Tanimoto M, Matsuda A, Uno T, Kurihara M, Shiga S, J. Electr. Mater., 28(11), 1216 (1999)

[5] Yoon SW, Lee BJ, Lee HM, Korean J. Mater. Res., 7(4), 303 (1997)

[6] Seo YJ, Lee KK, Lee DJ, Korean J. Mater. Res., 8(9), 807 (1998)

[7] Trumble B, IEEE Spectrum, 35, 55 (1998)

[8] Bae KS, Kim SJ, J. Mater. Res., 17(4), 743 (2002)

[9] Lee HY, J. Kor. Inst. Surf. Eng., 35(4), 218 (2002)

[10] Kim JY, Bae KS, Korean J. Mater. Res., 12(3), 225 (2002)

[11] Kang UB, Kim YH, J. Korean. Phy. Soc., 32, 1660 (1998)

[12] Smithells Metals Reference Book (7th ed.), 14-27 (1992) (1992)