论文信息 - Effect of gas atmosphere on the non-metallic inclusions in laser-welded trip steel with Al and Si additions

Effect of gas atmosphere on the non-metallic inclusions in laser-welded trip steel with Al and Si additions

The present study aims to characterize the weldability of a multiphase, automotive steel containing Al and Si additions from the point of view of its tendency to form non-metallic inclusions. Laser welding tests of 2-mm-thick sheets were performed using the keyhole-welding mode and a solid-state laser. The tests were carried out in air and with the use of an argon atmosphere. The distribution, type and chemical composition of the non-metallic inclusions formed in the base metal and fusion zones were analysed. The effect of applying the protective gas on the type and amount of non-metallic inclusions was determined using light and scanning electron microscopy. The chemical composition of the identified particles was assessed using the EDS method. It was found that a protective gas has a beneficial effect on reducing the non-metallic inclusions, but only to a limited extent. The boundary between the complex oxides and the pure aluminium oxides was determined to be 2–3 μm.

[1] J. Maciejewski. The Effects of Sulfide Inclusions on Mechanical Properties and Failures of Steel Components , 2015, Journal of Failure Analysis and Prevention.

[2] S. Wiewiórowska. Analysis of the Influence of Drawing Process Parameters on the Mechanical Properties of Trip-Structure Steel Wires , 2013 .

[3] E. Mazancová,et al. Influence of thermal treatment on structure and corrosion properties of high manganese triplex steels , 2013 .

[4] J. Górka. Weldability of Thermomechanically Treated Steels Having a High Yield Point , 2015 .

[5] M. Węglowski,et al. Structural Characterization of Nd:YAG Laser Welded Joint of Dual Phase Steel , 2010 .

[6] L. Dobrzański,et al. Microstructure Evolution of C-Mn-Si-Al-Nb High-Manganese Steel during the Thermomechanical Processing , 2010 .

[7] A. Kokosza,et al. Formation of Medium Carbon TRIP Steel Microstructure During Annealing in the Intercritical Temperature Range , 2014 .

[8] M. Hermans,et al. Microstructural Development during Welding of Silicon- and Aluminum-Based Transformation-Induced Plasticity Steels—Inclusion and Elemental Partitioning Analysis , 2009 .

[9] R. Kawalla,et al. High Manganese TWIP Steel - Technological Plasticity and Selected Properties , 2013 .

[10] Young‐kook Lee,et al. Pitting corrosion behavior in advanced high strength steels , 2015 .

[11] M. Opiela,et al. The influence of hot-working conditions on a structure of high-manganese steel , 2009 .