Thermomechanical modelling for the linear friction welding process of Ni-based superalloy

What is it about?

Linear friction welding (LFW) is a solid-phase pressure welding process that works by oscillating one workpiece relative to another while under a large compressive force. Because the welding process is complex, there is little understanding of the influence of process parameters—frequency, amplitude, pressure—of LFW on the heat transfer and deformation of weld. For the first time, we identified a visible linear friction welding process window using a thermomechanical computational modelling method. In the visible LFW process window, we proposed optimal linear friction welding process parameters via comparison of weld temperature to the liquidus temperature of Inconel-718 alloy.

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Photo by Sandeep Singh on Unsplash

Photo by Sandeep Singh on Unsplash

Why is it important?

Our computational modelling results showed a high level of similarity to experimentally determined macrostructure LFW results. Further, we observed strong correlations and trends between FE modelling results (Mises stress and temperature history) and experimentally measured data (hardness and averaged grain size). We conclude that the developed computational model could potentially serve as a design and process optimisation tool to manufacture high-quality IN718 alloy weld joints that exhibit appropriate material microstructure and optimal mechanical properties.

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