Abstract:The graphene/Al composites were prepared by friction stir processing used pristine graphene as the raw materials. The interface between graphene and the matrix could be divided into two types, namely graphene plane-Al and graphene edges-Al, graphene materials exhibit a unique two-dimension structure. Two types of interface microstructure were mainly observed by TEM and the interface formation mechanisms were analyzed. The results show that it is clean and well bonded in the graphene plane-Al, illustrating a mechanical bonding. Nevertheless, a transition zone, Al₄C₃ occasionally detects near the zone, which is found in the graphene edge-Al, this zone is estimated to exist as an interface combined with diffusion and partial reaction bonding. The interface formation mechanisms are related to the activity of C atoms in different graphene locations. The C atoms in the graphene plane are highly inert for the large conjugated π bond structure, and therefore, the mechanical bonding interface forms here. However, the C atoms at the graphene edge are active owing to C—C bonds dissociation in friction stir processing, and diffusion and partial reaction bonding with interface transition forms as the result of atomic-scale interaction between C and Al.

Key words: friction stir processing; graphene/Al composites; interface; mechanical bonding; diffusion; reaction bonding