Abstract
In this study, the self-piercing rivet (SPR) joining of vibration-damping steel and aluminum alloy (Al5052-H32) is successfully carried out, for the first time to our knowledge, and the effects of die type and joint configuration on the mechanical performance, failure mode, and geometrical characteristics of the new joint are investigated. The vibration-damping steel and Al5052-H32 SPR joint exhibits the largest tensile–shear load when a flat die is used. An increase in the die taper angle and diameter decreases the mechanical performance of the joint due to the increase in volume of the die, leading to a smaller interlock width of the joint. The joint configuration with Al5052-H32 as a top sheet has superior mechanical performance compared with the reverse configuration, owing to the increase of the interlock width. All SPR joints of vibration-damping steel and Al5052-H32 show consistent rivet pull-out failure, regardless of the joint configuration, because of relatively small interlock width. It is also found that these SPR joints show better mechanical performance than those of SPFC590DP (a skin material of the vibration-damping steel) and Al5052-H32 under the Al5052-H32–top configuration.
Highlights
A vibration-damping steel plate is a sandwich-structured steel panel with a viscoelastic adhesive layer between two steel sheets
Dissimilar joining of the vibration-damping steel to lightweight materials is inevitable to realize a variety of lightweight designs for cowl and dash panels
The top sheets of the joints barely showing a little slipping between the outer steel sheets of top vibration-damping steel
Summary
A vibration-damping steel plate is a sandwich-structured steel panel with a viscoelastic adhesive layer between two steel sheets. This plate is mainly considered for car cowl and dash panels, since it reduces noise and vibration, and provides proper mechanical strength. Dissimilar joining of the vibration-damping steel to lightweight materials is inevitable to realize a variety of lightweight designs for cowl and dash panels. These days, aluminum alloy, in particular, is being increasingly adopted to replace conventional steels as the lightweight material in automobiles. It is necessary to develop dissimilar joining methods of aluminum alloys to the vibration-damping steel sheets
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