WANG Dongmei
Media and Communication School, Shenzhen Polytechnic,
Shenzhen 518055, China

Modern Mechanical and
Packaging Institute,
Southern Yangtze University,
Wuxi 214122, China

WANG Zhiwei
Packaging Engineering Institute,
Jinan University,
Guangzhou 519070, China

Abstract: The compressive behaviour of paper honeycombs is studied by means of an experimental analysis. Experiment results show how geometry aspects of hexagonal paper honeycombs, e.g. the height of paper honeycomb, the thickness and length of honeycomb cell-wall, the drawing ratio of hexagonal honeycomb, affect the compressive properties of the paper honeycombs. It is in good agreement with the theory model. The constraint factor K of the critical buckling stress is mainly determined by the length of honeycomb cell-wall. It can be described as K=1.54 for B type paper honeycombs and K=3.32 for D type paper honeycombs. The plateau stress is the power exponent function of the thickness to length ratio of honeycomb cell-wall, and the experiment results show that the constant is 13.2 and the power exponent is 1.77. The research results can be used to characterize and improve efficiently the compressive properties of paper honeycombs.

Key words: Paper honeycombs Compressive behaviour Geometry structure Constraint factor