Abstract
Non-metallic inclusions particles are detrimental to the mechanical properties of a material. It is very important to understand the motion behavior of inclusion particles in molten metal. The motion behavior of non-metallic inclusion particles during weld pool solidification and their distribution in joint areas is dependent on various factors. In the alternative current (AC) flash welding process, inclusions motions are dependent on welding plate movement, interfacial tensions, etc. Apart from this, the temperature of the molten metal in the welding zone and the size of inclusion particles also play an important role. Secondly, the Marangoni forces are developed due to interfacial tension which affects the movement of inclusion particles at the solid-liquid interface in a solidifying welding pool. The interfacial tension varies with the change in surfactant concentration and other factors. In this work, the effect of upsetting rate and interfacial tension on alumina inclusions has been studied. The interfacial tension controls the pushing and engulfment of non-metallic inclusions at the solid-liquid interface. A two-dimensional multiphase mathematical model has been developed to study the inclusion motion behavior at the solid–liquid interface in a solidifying weld pool. The numerical model has been developed by adding the volume of fluid method (VOF), a dynamic mesh model and discrete phase model for a realistic approach. The predicted results show that the upsetting setting parameters have a substantial effect on the overall non-metallic inclusion motion. The inclusions were seen moving away from the welded joint due to the high up-setting rate. The results also reveal that the inclusions were engulfed by the solidification front under the effect of the strong interfacial tension between the non-metallic inclusions and the molten steel.
Highlights
alternative current (AC) flash butt welding is a method to join two ends of metal pieces
The metal pieces are pressed by high force which leads to the weld pool being suppressed and, trapped contamination and oxide inclusions are pressed out from the weld joint
The weld pool temperature plays an important role in the displacement of inclusion particles, we studied inclusion distribution at different weld pool temperatures
Summary
AC flash butt welding is a method to join two ends of metal pieces. The ends of metal pieces are pressed together and welded by flash arc. The different parameters involved in the flash butt welding process were analyzed by Kim et al [1] They found that at a low upset rate, oxide inclusions were not separated from the center of the weld joint. The purpose of this work is to investigate the flash welding parameters, such as upsetting rate of two movable plates on the weld pool and subsequent impact on alumina inclusion entrapment. The kinematic characteristics of the solidified thin strip weld of an SPFH590 steel plate are based on the two-dimensional CFD numerical sion pushing and engulfment phenomena were investigated under the influence of interfacial tension developed due to sulfur concentrations
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