Density functional theory was employed to investigate the bismuth segregation at Cu/Cu3Sn(010) interface. Five initial constructions were introduced by adopting the adhesion energy criterion. Among them, the so-called "between-Cu" construction in which the interface Cu atoms of Cu slab locate along Cu-Cu bond direction in Cu3Sn slab was found to be the most energy-favored at an adhesion energy of 1.96 J/m2. Based on this construction, five possible segregation sites were examined, and the most likely segregation site was determined with adhesion energy as low as 1.06 J/m2, which was almost half of the initial one. Comparing with other sites' adhesion energies, it was concluded that size effect took a large part in embrittlement. The analyses of atomic structure and electronic density revealed that the slabs shifted away from interfaces due to bismuth segregation, and the atoms around Bi atom were pressed away. This calculated work agreed qualitatively with reported experimental results.
参考文献
| [1] | P.T. VIANCO;A.C. KILGO;R. GRANT .Intermetallic Compound Layer Growth By Solid State Reactions Between 58Bi-42Sn Solder and Copper[J].Journal of Electronic Materials,1995(10):1493-1505. |
| [2] | P.J. Shang;Z.Q. Liu;D.X. Li .Directional growth of Cu_3Sn at the reactive interface between eutectic SnBi solder and (100) single crystal Cu[J].Scripta materialia,2008(3):317-320. |
| [3] | P.J. Shang;Z.Q. Liu;X.Y. Pang .Growth mechanisms of Cu_3Sn on polycrystalline and single crystalline Cu substrates[J].Acta materialia,2009(16):4697-4706. |
| [4] | P.L.Liu;J.K.Shang .INTERFACIAL SEGREGATION OF BISMUTH IN COPPER/TIN-BISMUTH SOLDER INTERCONNECT[J].Scripta materialia,2001(7):1019-1023. |
| [5] | U. ALBER;H. MULLEJANS;M. RUHLE .BISMUTH SEGREGATION AT COPPER GRAIN BOUNDARIES[J].Acta materialia,1999(15/16):4047-4060. |
| [6] | W. T. Geng;A. J. Freeman;G. B. Olson .Atomic Size Effect in Impurity Induced Grain Boundary Embrittlement[J].Materials transactions,2006(8):2113-2114. |
| [7] | X.Y. Pang;S.Q. Wang;L. Zhang .First principles calculation of elastic and lattice constants of orthorhombic Cu_3Sn crystal[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2008(1/2):517-520. |
| [8] | G. Ghosh .Elastic properties, hardness, and indentation fracture toughness of intermetallics relevant to electronic packaging[J].Journal of Materials Research,2004(5):1439-1454. |
| [9] | Y. SONG;Z. X. GUO;R. YANG .FIRST PRINCIPLES STUDY OF SITE SUBSTITUTION OF TERNARY ELEMENTS IN NiAl[J].Acta materialia,2001(9):1647-1654. |
| [10] | N.I.Medvedeva;Yu. N Gornostyrev;D.L.Novikov .Ternary site preference energies, size misfits and solid solution hardening in NiAl and FeAl[J].Acta materialia,1998(10):3433-3442. |
| [11] | P.L. LIU;J.K. SHANG .Segregant-Induced Cavitation of Sn/Cu Reactive Interface[J].Scripta materialia,2005(6):631-634. |
| [12] | P.J. Shang;Z.Q. Liu;D.X. Li .Bi-induced voids at the Cu_3Sn/Cu interface in eutectic SnBi/Cu solder joints[J].Scripta materialia,2008(5):409-412. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%