Multilayer Contacts In Electrical Connectors:Experimental Results And Modelling

Electrical contacts are an essential part of electrical circuits and many reliability problems are related to their failure. The present work uses numerical simulation in view of a better analysis of the electromechanical phenomena, in the case of multilayer electrical contacts. We study a ball/plane contact made of bulk CuZn alloy, protected by a thin Sn surface layer. A coupled finite element analysis is performed in order to calculate the contact resistance of the device: an elasto-plastic model is used to determine the geometry of the contact area, then an electrical model gives the resulting constriction resistance. Results of the simulation are compared to experimental data. The respective contributions of the mechanical and electrical phenomena are analysed.

[1]  Electrical and tribological properties of tin plated copper alloy for electrical contacts in relation to intermetallic growth , 2006, Electrical Contacts - 2006. Proceedings of the 52nd IEEE Holm Conference on Electrical Contacts.

[2]  R. Holm Electric contacts; theory and application , 1967 .

[3]  S. Noël,et al.  Friction properties of perfluorinated polyethers for hot‐dipped tin low‐level separable electrical contacts , 2002 .

[4]  T. Hammam Friction, wear and electric properties of tin-coated tin bronze for separable electric connectors , 1996, Electrical Contacts - 1996. Proceedings of the Forty-Second IEEE Holm Conference on Electrical Contacts. Joint with the 18th International Conference on Electrical Contacts.

[5]  A. G. Tangena,et al.  The correlation between mechanical stresses and wear in a layered system , 1988 .