Eakkachai Warinsiriruk and Bovornchock Poopat

pp. 333 - 338

Abstract

The stability of a short circuiting period is important to obtain the desired weld quality. The objective of this research is
to analyze the uniformity of liquid bridge disruption period during short circuit mode affected by various shielding gas
compositions. The shielding gas compositions of 100% CO₂
 and 84%Ar+2%O₂
+14%CO₂ were used in this study. Short circuiting period was detected by using acoustic signals emitting from the arc. Acoustic data were recorded by using multimedia
function of XP windows audio card through a high sensitivity microphone. The results of short circuit acoustic data were
analyzed by using continuous wavelet transformation for classifying the difference of acoustic emitting mechanism of electrode tip touching with base metal and pinching cut-off. For 84%Ar+2%O₂
+14%CO₂
 shielding gas, it clearly showed smoother
short circuit transfer than that of CO₂
 shielding gas. CO₂
 shielding gas gave large variation in disruption period comparing with
that of 84%Ar+2%O₂
+14%CO₂
 gas mixture.