Lattice material infiltration for hybrid metal-composite joints: Manufacturing and static strenght

An innovative technological solution for the manufacturing of high strength and high toughness metalcomposite interface is here investigated, in which a 3DP printed cellular structure at the metal side is infiltrated by Advanced Sheet Molding Compound composite, in order to understand the effect of main geometric and processing parameters. Some hybrid metal-composite joints were produced, in which the effect of fiber orientation and cell dimension were considered as representative of the main processing issues. The outcome of the infiltration process was first checked on the hybrid joints, then samples were extracted for mechanical characterization of the bond, in comparison with cellular structure free joints.

Automated summary

An innovative technological solution for manufacturing high strength and high toughness metal-composite interfaces was investigated, utilizing a 3DP printed cellular structure infiltrated by Advanced Sheet Molding Compound composite to study the effects of main geometric and processing parameters. Hybrid metal-composite joints were produced, considering the effects of fiber orientation and cell dimension as representative of key processing issues. The outcome of the infiltration process was checked on the hybrid joints before mechanical characterization of the bond, comparing with joints without cellular structures.