Abstract:7075 aluminum alloy based composite reinforced with carbon nanotubes was prepared by friction stir processing. The thermal expansion coefficients of CNTs/7075 composites with processed state and heat treatment were measured. And the theoretical thermal expansion coefficient of CNTs/7075 composite was calculated with ROM, Turner and Schapery’s model. The results show that the grain size of material can effectively reduced by friction stir processing, and the addition of CNTs can further refine grain size of composite. The CNTs/7075 composite has smaller thermal expansion coefficients compared with annealed 7075 matrix materials and the FSPed 7075 samples, which indicates that the addition of CNTs can effectively constrain the thermal expansion of the composite. The thermal expansion coefficients of CNTs/7075 composite samples decrease along with the increase of volume fraction of CNTs. Heat treatment has a positive effect on the thermal expansion characteristic of the composite, and the annealing or aging treatment can decrease the thermal expansion of the composite. The theoretical calculation shows that thermal expansion coefficient of CNTs/7075 composite with Turner’s model is the closest to the experimental result.

Key words: carbon nanotubes; composite; friction stir processing; thermal expansion