Litcius/Paper detail

Numerical modeling and experimental validation of the effect of arc distribution on the as-solidified Ti64 ingot in vacuum arc remelting (VAR) process

Ebrahim Karimi‐Sibaki, Abdellah Kharicha, Alexander Vakhrushev, M. Abdi, Menghuai Wu, Andreas Ludwig, Jan Boháček, Bernhard Preiss

2022Journal of Materials Research and Technology27 citationsDOIOpen Access PDF

Abstract

A numerical model coupling electromagnetic field and plasma arc impact with multiphase transport phenomena such as flow, heat transfer and solidification for the vacuum arc remelting (VAR) process is proposed. 3D simulations of the VAR process for refining a Titanium-based (Ti–6Al–4V) alloy are made. Different arc distributions (diffusive, constricted centric, constricted eccentric, and rotating arcs) under an axial magnetic field (AMF) are studied, focusing on their impact on the flow patterns and the resulting melt pool of the as-solidifying ingot. Simulation results show that diffusive arc leads to a shallow symmetrical melt pool; constricted centric and rotating arcs lead to electro-vortex flow and the symmetrical melt pool; constricted eccentric leads to electro-vortex flow as well, but the deepest non-symmetrical melt pool.

Topics & Concepts

IngotMaterials scienceArc (geometry)VortexMechanicsFlow (mathematics)Vacuum arcMetallurgyHeat transferCoupling (piping)Computer simulationTitanium alloyRotating magnetic fieldAlloyMagnetic fieldPlasmaMechanical engineeringPhysicsEngineeringQuantum mechanicsMetallurgical Processes and ThermodynamicsVacuum and Plasma ArcsAdvanced materials and composites