5Wang D M. Impact behavior and energy absorption of pa- per honeycomb sandwich panels. International Journal of Impact Engineering, 2009, 36(1): 110-114.
6Noor A K, Burton W S, Bert C W. Computational models for sandwich panels and shell. Applied Mechanics Re- views, 1996, 49(3): 155-199.
7Silva M J, Hayes W C, Gibson L J. The effect on non-pe- riodic microstructure on the elastic properties of two-di- mensional cellular solids. International Journal of Mechan ical Science, 1995, 37(11): 1161-1177.
8Burlayenko V N, Sadowski T. Effective elastic properties of foam-filled honeycomb cores of sandwich panels. Com- posite Structures, 2010, 92(12): 2890-2990.
9Ke Y L~ Liu G. Attractive fixture system based on mag- netic field and friction force for numerically controlled machining of paper honeycomb core. Journal of Manufactur- ing Science and Engineering, 2005, 127(4): 901-906.
10Klintworth J W, Stronge W J. Elasto-plastic yield limits and deformation laws for transversely crushed honey combs. International Journal of Mechanical Sciences, 1988, 30(3-4) : 273-92.
