Abstract
The results disclosed that both the microstructure and mechanical properties of AA7075-T6 laser welds are considerably influenced by the heat input. In comparison with high heat input (arc welding), a smaller weld fusion zone with a finer dendrite arm spacing, limited loss of alloying elements, less intergranular segregation, and reduced residual tensile stress was obtained using low heat input. This resulted in a lower tendency of porosity and hot cracking, which improved the welded metal’s soundness. Subsequently, higher hardness as well as higher tensile strength for the welded joint was obtained with lower heat input. A welded joint with better mechanical properties and less mechanical discrepancy is important for better productivity. The implemented high-power fiber laser has enabled the production of a low heat input welded joint using a high welding speed, which is of considerable importance for minimizing not only the fusion zone size but also the deterioration of its properties. In other words, high-power fiber laser welding is a viable solution for recovering the mechanical properties of the high-strength AA 7075-T6 welds. These results are encouraging to build upon for further improvement of the mechanical properties to be comparable with the base metal.
Highlights
Aluminum alloys constitute a fairly representative class of lightweight materials for a wide range of important applications including the transportation sector, where much better fuel efficiency and lower CO2 emissions are demanded
Conventional fusion welding processes are widely used for joining aluminum alloys
The many of rivets employed in the design considerably increase the mass of the structure, along with the additional complexities associated with stress accumulation and corrosion [21,22]
Summary
Aluminum alloys constitute a fairly representative class of lightweight materials for a wide range of important applications including the transportation sector, where much better fuel efficiency and lower CO2 emissions are demanded. Conventional fusion welding processes are widely used for joining aluminum alloys These processes allow obtaining acceptable mechanical properties with minimum distortion of welded structures [15,16,17,18]. Welding of the high-strength 7075 aluminum alloy is a great challenge due to its high thermal sensitivity and low eutectic liquidus temperature range. It is considered not weldable using the conventional fusion welding processes [19,20]. Mechanical fastening, such as riveting, has been a common method of jointing this high strength aluminum alloy. The problems with welding and rivet joining of this high-strength Al alloy changed dramatically with the invention of the solid-state friction stir welding (FSW)
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