Analysis of Fume Formation Rate and Fume Particle Composition for Gas Metal Arc Welding (GMAW) of Plain Carbon Steel Using Different Shielding Gas Compositions

Abstract

The present paper compares thirteen shielding gases and their impact on FFR and fume particle while welding in the spray transfer regime. There was no obvious influence from the shielding gas on particle composition and fume particles were identified as (Fe,Mn)₃O₄. There was a slight peak shift that indicated that small levels of Mn, as detected by TEM-EDS, substituted for Fe in the Fe₃O₄ phase.
Shielding gas composition is an important parameter for successful gas metal arc welding (GMAW) and has been shown to affect the fume formation rate (FFR). In Ar-based mixtures, increasing CO₂ had a greater impact than raising O₂ on FFR. When O₂ was increased in ternary mixtures, the FFR increased for Ar–5%CO₂ but no discernable increase was observed for the Ar–12%CO₂ mixtures. Results indicate that CO₂ additions in Ar-based shielding gases are the controlling factor in determining FFR due to the effect of CO₂ on welding arc characteristics. Ar–He–CO₂ mixtures had the most stable FFR's.