Abstract

Honeycombs are ultra-light materials with outstanding mechanical properties, which mainly originate from their unit cell configurations rather than the properties of matrix materials . Honeycombs are triggering in numerous promising applications in the fields of architecture, automotive, railway vehicle , marine, aerospace, satellite, packaging and medical implants , etc. Here we provide an in-depth overview of some important advances in basic structural design to obtain novel honeycombs with various improved mechanical properties. Firstly, the review introduces the classical honeycomb configurations. Then, a clear classification of advanced designs is established and discussed according to the design scale. The designs on the macro scale are divided into hierarchical, graded and disordered, while the designs on the meso scale are grouped as hybrid, curved ligament and reinforced strut. Moreover, the effects of different designs on the mechanical properties of honeycomb are discussed quantitatively. Finally, we summarize the important potential designs to improve the mechanical properties of honeycombs and the challenges in further research. • Introduction of classic honeycomb configurations and their mechanical properties. • Clear classification of macro-scale advanced designs, i.e. hierarchy, gradient and disorder. • Clear classification of meso-scale advanced designs, i.e. hybrid, curved ligament, and reinforcing strut. • Effects of different honeycomb designs on their mechanical properties.

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