Metallurgical and Process Variables Affecting the Resistance Spot Weldability of Galvanized Sheet Steels 840113
Zinc coating integrity, composition, thickness, roughness, and the presence of Fe-Zn intermetallics are being investigated with regard to the mechanisms of weld nugget formation. This information is being used in conjunction with the optimization of the weld process parameters; such as upsloping, down-sloping, preheating, postheating, and double pulsing, to provide the widest range of acceptable welding conditions. Dynamic inspection monitoring of the welding current, voltage, force, and nugget displacement is being used to follow the progression of nugget formation and to assist in the evaluation of optimum process and material characteristics.
It has been found that hot-dipped galvanized materials with coatings which have a very thin Fe-Zn alloy layer, have a wider range of acceptable welding conditions than the commercial galvannealed products, which have a fully alloyed Fe-Zn coating. Small variations in the thickness and roughness of the G90 hot-dipped coatings studied seem to have no significant effect on the welding current range. Upsloping and downsloping of the weld current increases the welding range of hot-dipped products when using truncated cone electrodes, whereas sloped current has no advantage for galvannealed or uncoated materials. Radiused electrodes can increase the lobe width of hot-dipped products but are not beneficial when using sloped current or when welding galvannealed or uncoated materials.
Citation: Gedeon, S., Schrock, D., LaPointe, J., and Eagar, T., "Metallurgical and Process Variables Affecting the Resistance Spot Weldability of Galvanized Sheet Steels," SAE Technical Paper 840113, 1984, https://doi.org/10.4271/840113. Download Citation
S. A. Gedeon, D. Schrock, J. LaPointe, T. W. Eagar