Lightweight design is a major driving force of innovation, especially in the automotive industry. Using hybrid components made of two or more different materials is one approach to reduce the vehicles weight and decrease fuel consumption. As a possible way to increase the stiffness of multi-material components, this paper presents a process chain to produce such components made of steel sheets and high-pressure die cast aluminium. Prior to the casting sequence the steel sheets are structured in a modified rolling process which enables continuous interlocking with the aluminium. Two structures manufactured by this rolling process are tested. The first one is a channel like structure and the second one is a channel like structure with undercuts. These undercuts enable the formation of small anchors when the molten aluminium fills them. The correlation between thickness reduction during rolling and the shape of the resulting structure was evaluated for both structures. It can be stated that channels with a d...
[1]
Hirofumi Takayama,et al.
Joining of aluminum alloy to steel by friction stir welding
,
2006
.
[2]
Gerhard Hirt,et al.
Evaluation of Modular Roll-Setup to Roll Grooves into Steel Sheets
,
2015
.
[3]
M. Liewald,et al.
Material Property Modification of Continuous Fibre-reinforced Aluminium Matrices Produced by Semi-solid Forming Strategies
,
2014
.
[4]
Elmar Beeh,et al.
Super Light Car—lightweight construction thanks to a multi-material design and function integration
,
2009
.
[5]
Wolfram Volk,et al.
Joining Aluminium Alloy and Mild Steel Sheets by Roller Clinching
,
2015
.