Characterization of electron beam welds of precipitation hardened aluminum alloys

Characterization of electron beam welds of precipitation hardened aluminum alloys

Paper in proceedings (conference paper)

Effort in a number of industries (e.g. aerospace, automotive) leads to increase of performance while reducing weight and operational costs thanks to replacement of the mechanical joints by welded joints. Precipitation hardened aluminum alloys are one of the most used material in this case thanks to the favorable ratio between strength and density of material. Welding of these materials is connected with undesirable changes of structure and occurrence of typical welding defects. Range of microstructural changes and associated changes of mechanical properties depends on the chosen method of welding. This work is focused on the welding of precipitation hardenable aluminum alloys by electron beam. Electron beam welding offers many advantages including the possibility of optimizing the welding process by a variety of process parameters which may significantly change the geometry of the weld and thus the amount of present defects. The homogeneous welds of aluminum alloy Al-Cu (AA2024) and Al-Mg-Si (AA6061) were performed for the evaluation the influence of the selected process parameters on the resulted welds.

Effort in a number of industries (e.g. aerospace, automotive) leads to increase of performance while reducing weight and operational costs thanks to replacement of the mechanical joints by welded joints. Precipitation hardened aluminum alloys are one of the most used material in this case thanks to the favorable ratio between strength and density of material. Welding of these materials is connected with undesirable changes of structure and occurrence of typical welding defects. Range of microstructural changes and associated changes of mechanical properties depends on the chosen method of welding. This work is focused on the welding of precipitation hardenable aluminum alloys by electron beam. Electron beam welding offers many advantages including the possibility of optimizing the welding process by a variety of process parameters which may significantly change the geometry of the weld and thus the amount of present defects. The homogeneous welds of aluminum alloy Al-Cu (AA2024) and Al-Mg-Si (AA6061) were performed for the evaluation the influence of the selected process parameters on the resulted welds.

electron beam welding; welding defects; heat-treatable aluminum alloys

electron beam welding; welding defects; heat-treatable aluminum alloys

HAVLÍK, P.; KOUŘIL, J.; FORET, R.

2017

02.06.2016

Brno University of Technology

Brno

978-80-214-5358-6

MULTI-SCALE DESIGN OF ADVANCED MATERIALS CONFERENCE PROCEEDINGS

50

58

9

http://ime.fme.vutbr.cz/images/umvi/aktuality/mikulov_2016/sbornik_2016.pdf

http://hdl.handle.net/