Vol 4 , Issue 4 , October - December 2016 | Pages: 158-164 | Research Paper
Received: June 02, 2016 | Revised: August 20, 2016 | Accepted: August 28, 2016 | Published Online: December 15, 2016
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Friction-stir welding (FSW) is a solid-state joining process that uses a third body tool to join two faying surfaces. Frictional heat between the welding tool and the work pieces causes the latter to soften without reaching the melting point, allowing the tool to traverse along the weld line. It then mechanically intermixes the two pieces of metal at the place of joint; the softened metal can be joined using mechanical pressure (which is applied by the tool), much like joining clay or dough [1]. In this project, universal horizontal Milling Machine is used to weld the parts together. The parts being welded are made up of similar materials i.e. Aluminum alloy of 6061 grade. The rotational speed is varied from 1200 rpm to 1500 rpm while the welding speed is kept constant at 25 mm/min. The dimensions of the parts are (100mmx50mmx6mm) which are welded to form a butt joint. The effect of different tool pin profiles on the quality of the welded joint is also studied for welding. Different tool pin profiles considered are threaded, taper and cylindrical. The tools are manufactured on a Lathe machine. After the parts are welded, various practical tests are performed on the welded parts that include the tensile strength, microstructure study and the micro-hardness test. The experimental results proved that the highest tensile strength of the welded joint i.e., 81.073 N/mm2 was achieved with the threaded tool profile at speed 900 rpm with feed 25 mm/min and the highest hardness value of 267HV was achieved with the round tool profile at 1500 rpm and feed of 25 mm/min.
Keywords
Friction Stir Welding (FSW); Horizontal Milling Machine; Similar Materials; Tensile Strength; Micro-Strength Test; Micro-Hardness Test.