Effect of variable electrode force on weld quality in resistance spot welding

Resistance spot weldability is defined as the acceptable welding current ranges as determined by the weld lobe in resistance spot welding. Nowadays many studies have focused on the effect of welding current and welding time under constant electrode force on the weld quality and weldability. There is...

Full description

Saved in:
Bibliographic Details
Published in:Science and technology of welding and joining 2007-11, Vol.12 (8), p.718-724
Main Authors: Sun, H.T., Lai, X.M., Zhang, Y.S., Shen, J.
Format: Article
Language:English
Subjects:
DOE APPROACH
HOT DIPPED GALVANISED LOW CARBON STEELS
RESISTANCE SPOT WELDING
VARIABLE ELECTRODE FORCE
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Resistance spot weldability is defined as the acceptable welding current ranges as determined by the weld lobe in resistance spot welding. Nowadays many studies have focused on the effect of welding current and welding time under constant electrode force on the weld quality and weldability. There is little research on the influence of variable electrode force on the weld quality and weldability because of the difficulty in controlling variable electrode force using pneumatic gun. In the present study, first, the influence of three stages of electrode force, including squeeze force, welding force and forging force, on the quality of welds is analysed. Then a design of experiment approach is applied to analyse the influence of the three stages of electrode force on welding quality and thus to obtain optimum parameter of variable electrode force by controlling the electrode force with servo gun. The comparisons of tensile shear strength, nugget size, weld lobe width and wear rate of electrode tip between variable force and constant force are carried out. The results show that the weld quality and weldability can be increased evidently using optimum parameter of variable electrode force without accelerating the electrode wear rate.
ISSN:1362-1718
1743-2936
DOI:10.1179/174329307X251862