Title :
Electroless Ni-W-P Alloys as Barrier Coatings for Liquid Solder Interconnects
Author :
Chen, K. ; Liu, C. ; Whalley, D.C. ; Hutt, D.A. ; Li, J.F. ; Mannan, S.H.
Author_Institution :
Wolfson Sch. of Mech. & Manuf. Eng., Loughborough Univ.
Abstract :
The control of the interfacial reaction rate is of great importance for liquid solder interconnects for high temperature electronic assemblies. Conventional electroless Ni-P barrier metallizations have been found to be inadequate for providing long term protection of the underlying metallization from the attack of molten solders. In this paper, binary Ni-P was modified with the co-deposition of a refractory alloying element, tungsten (W), from its soluble metal salt added to the plating bath. Critical parameters for the deposition of ternary Ni-W-P were identified. The long term reaction between Ni-W-P and molten Sn-Bi solder at 200 degC was studied. The results indicated that Ni-W-P barrier coatings with higher W contents have much longer service lifetime as a barrier than normal Ni-P coatings. A mechanism for the reaction between Ni-W-P and molten Sn-Bi solder, and a failure mechanism for the Ni-W-P layer, are also proposed
Keywords :
assembling; bismuth alloys; electroless deposited coatings; metallisation; nickel alloys; phosphorus alloys; refractories; solders; tin alloys; tungsten alloys; 200 C; Ni-W-P; Sn-Bi; barrier coatings; co-deposition; electroless alloys; electroless barrier metallization; electronic assemblies; failure mechanism; liquid solder interconnects; refractory alloying element; Assembly; Coatings; Copper; Educational institutions; Inhibitors; Manufacturing; Mechanical engineering; Metallization; Temperature control; Tungsten;
Conference_Titel :
Electronics Systemintegration Technology Conference, 2006. 1st
Conference_Location :
Dresden
Print_ISBN :
1-4244-0552-1
Electronic_ISBN :
1-4244-0553-x
DOI :
10.1109/ESTC.2006.280037
