@misc{KleinPodlesakHoeferetal., author = {Klein, Mario and Podlesak, Frank and H{\"o}fer, Kevin and Seidlitz, Holger and Gerstenberger, Colin and Mayr, Peter and Kroll, Lothar}, title = {Advanced Joining Technologies for Load and Fibre Adjusted FRP-Metal Hybrid Structures}, series = {Journal of Materials Science Research}, volume = {4}, journal = {Journal of Materials Science Research}, number = {4}, issn = {1927-0585}, doi = {10.5539/jmsr.v4n4p26}, pages = {26 -- 33}, abstract = {Multi-material-design (MMD) is commonly realized through the combination of thin sheet metal and fibre reinforced plastics (FRP). To maximize the high lightweight potential of the material groups within a multi-material system as good as possible, a material-adapted and particularly fibre adjusted joining technology must be applied. The present paper focuses on two novel joining technologies, the Flow Drill Joining (FDJ) method and Spin-Blind-Riveting (SBR), which were developed for joining heavy-duty metal/composite hybrids. Tests were carried out with material combinations which are significant for lightweight constructions such as aluminium (AA5083) and carbon fibre-reinforced polyamide in sheet thickness of 1.8 mm. The mechanical testing and manufacturing of those multi-material joints was investigated.}, language = {en} }