▎ 摘　　要

The manuscript focuses on analyzing the pore morphology and pore distribution of novel graphene nanoflakes reinforced aluminum foam (GNF-AF) and investigating theirmechanical properties under quasi-static compressive loadings. Experimental results indicate the existence of GNFs can reduce the pore diameter, refine the pore morphology, and improve the pore distribution. Distinguish from other brittle foams, GNF-AF presents smooth stress-strain curve, wherein the local buckling deformation, shear deformation, tensile deformation combinate the whole compressive behavior. By comparing the plateau stress, energy absorption, and specific energy absorption of GNF-AF with varying content of GNFs, a notable improvement of 29.0%, 28.5%, and 27.9% was detected by adding 0.10 wt% GNFs. Besides, the energy absorption efficiency of enhanced aluminum foam was slightly improved. (C) 2017 Elsevier Ltd. All rights reserved.