Welding abilities of UFG metals
- Autori: Morawiński, L.; Chmielewski, T.; Olejnik, L.; Buffa, G.; Campanella, D.; Fratini, L.
- Anno di pubblicazione: 2018
- Tipologia: Proceedings (TIPOLOGIA NON ATTIVA)
- Parole Chiave: Ultrafine Grained (UFG), Linear Friction Welding (LFW), Severe Plastic Deformation (SPD), Rotary Friction Welding (RFW), Friction Stir Welding (FSW)
- OA Link: http://hdl.handle.net/10447/290226
Ultrafine Grained (UFG) metals are characterized by an average grain size of <1 μm and mostly high angle grain boundaries. These materials exhibit exceptional improvements in strength, superplastic behaviour and in some cases enhanced biocompatibility. UFG metals barstock can be fabricated effectively by means of Severe Plastic Deformation (SPD) methods. However, the obtained welded joints with similar properties to the base of UFG material are crucial for the production of finished engineering components. Conventional welding methods based on local melting of the joined edges cannot be used due to the UFG microstructure degradation caused by the heat occurrence in the heat affected zone. Therefore, the possibility of obtaining UFG materials joints with different shearing plane (SP) positions by means of friction welded processes, which do not exceed the melting temperature during the process, should be investigated. The article focuses on the Linear Friction Welding (LFW) method, which belongs to innovative welding processes based on mixing of the friction-heated material in the solid state. LFW is a welding process used to joint bulk components. In the process, the friction forces work due to the high frequency oscillation and the pressure between the specimens is converted in thermal energy. Character and range of recrystallization can be controlled by changing LFW parameters. Experimental study on the welded UFG 1070 aluminum alloy by means of FLW method, indicates the possibility of reducing the UFG structure degradation in the obtained joint. A laboratory designed LFW machine has been used to weld the specimens with different contact pressure and oscillation frequency.