Abstract:The graphene nanosheets/AZ31 magnesium alloy composite joints were fabricated by introducing graphene nanosheets into magnesium alloy through activating flux tungsten inert gas welding. The effects of graphene addition amount on microstructure and properties of composite joints were studied. The results show that graphene nanosheets evenly disperse in magnesium alloy matrix due to the combined effect of Marangoni convection and electromagnetic forces. The uniformly dispersed graphene nanosheets refine matrix crystals and enhance mechanical property of the composite joints. The minimum grain size (about 19.8 μm) and optimum of mechanical properties of sample 4^# is obtained. The ultra-tensile strength and microhardness of the composite joints reach to 198 MPa and 68.9HV, about 190.4% and 130% of those of the joints without graphene nanosheets, respectively. Simultaneously, the toughness is also the best. Therefore, the grapheme nanosheets/AZ31 magnesium alloy composite joints with the best performance can be obtained when graphene addition amount is about 1.41%.

Key words: graphene nanaosheet; AZ31 magnesium alloy; activating flux tungsten inert gas welding; microstructure; mechanical property