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Effect of process parameters on temperature and force distribution during friction stir welding of armor-marine grade aluminum alloy

Shubham Verma, Joy Prakash Misra

2020Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture28 citationsDOI

Abstract

This research investigates the effect of process parameters on real-time temperature and forces distribution during friction stir welding of AA7039. Experiments are conducted at different rotational speed, welding speed, and tilt angle conditions. For the experimentation, a low-cost real-time force-measuring fixture is indigenously developed in-house. However, eight K-type L-shaped thermocouples are used to examine the real-time temperature distribution. The forces in the z-direction are of a higher magnitude than the x-direction. The maximum force in the z-direction of 3.25 kN is witnessed for 2° tilt angle and a minimum of 2.1 kN for 26 mm/min of welding speed. The maximum force in the x-direction of 0.97 kN is obtained at 2° tilt angle and a minimum of 0.27 kN is obtained at 1.3° tilt angle. The maximum temperature of 390 °C is observed at 1812 r/min, whereas a minimum of 283 °C is observed at 43 mm/min of welding speed. The variations in temperature and force distribution during friction stir welding are also evaluated by utilizing two phenomenological models.

Topics & Concepts

ThermocoupleFriction stir weldingTilt (camera)WeldingMaterials scienceRotational speedFixtureAluminiumAlloyMechanicsComposite materialMechanical engineeringPhysicsEngineeringAdvanced Welding Techniques AnalysisAluminum Alloys Composites PropertiesAluminum Alloy Microstructure Properties
Effect of process parameters on temperature and force distribution during friction stir welding of armor-marine grade aluminum alloy | Litcius