How to cite this paper
Abderrahim, B., Bouakba, M., Boukhatem, M & Issasfa, B. (2016). Finite element analysis of out-of-plane compressive properties of a honeycomb structures with hexagonal topology fabricated by the kirigami technique.Engineering Solid Mechanics, 4(3), 153-158.
Refrences
Bouakba, M., Bezazi, A., & Scarpa, F. (2012). FE analysis of the in-plane mechanical properties of a novel Voronoi-type lattice with positive and negative Poisson’s ratio configurations. International Journal of Solids and Structures, 49(18), 2450-2459.
Chen, Y. J., Scarpa, F., Liu, Y. J., & Leng, J. S. (2013). Elasticity of anti-tetrachiral anisotropic lattices. International Journal of Solids and Structures, 50(6), 996-1004.
Gibson, L. J., & Ashby, M. F. (1997). Cellular solids: structure and properties. Cambridge university press.
Gong, L., Kyriakides, S., & Jang, W. Y. (2005). Compressive response of open-cell foams. Part I: Morphology and elastic properties. International Journal of Solids and Structures, 42(5), 1355-1379.
Hou, Y., Neville, R., Scarpa, F., Remillat, C., Gu, B., & Ruzzene, M. (2014). Graded conventional-auxetic Kirigami sandwich structures: Flatwise compression and edgewise loading. Composites Part B: Engineering, 59, 33-42.
Khan, M. K., Baig, T., & Mirza, S. (2012). Experimental investigation of in-plane and out-of-plane crushing of aluminum honeycomb. Materials Science and Engineering: A, 539, 135-142.
Lascoup, B., Aboura, Z., Khellil, K., & Benzeggagh, M. (2010). Homogenization of the core layer in stitched sandwich structures. Composites Science and Technology, 70(2), 350-355.
Ren, X. J., & Silberschmidt, V. V. (2008). Numerical modelling of low-density cellular materials. Computational materials science, 43(1), 65-74.
Saito, K., Agnese, F., & Scarpa, F. (2011). A cellular kirigami morphing wingbox concept. Journal of intelligent material systems and structures, 22(9), 935-944.
Scarpa, F., Panayiotou, P., & Tomlinson, G. (2000). Numerical and experimental uniaxial loading on in-plane auxetic honeycombs. The Journal of Strain Analysis for Engineering Design, 35(5), 383-388.
Silva, M. J., Hayes, W. C., & Gibson, L. J. (1995). The effects of non-periodic microstructure on the elastic properties of two-dimensional cellular solids. International Journal of Mechanical Sciences, 37(11), 1161-1177.
Virk, K., Monti, A., Trehard, T., Marsh, M., Hazra, K., Boba, K., ... & Farrow, I. R. (2013). SILICOMB PEEK Kirigami cellular structures: mechanical response and energy dissipation through zero and negative stiffness. Smart Materials and Structures, 22(8), 084014.
Zhu, H. X., Knott, J. F., & Mills, N. J. (1997). Analysis of the elastic properties of open-cell foams with tetrakaidecahedral cells. Journal of the Mechanics and Physics of Solids, 45(3), 319-343.
Zhu, H. X., Hobdell, J. R., & Windle, A. H. (2001). Effects of cell irregularity on the elastic properties of 2D Voronoi honeycombs. Journal of the Mechanics and Physics of Solids, 49(4), 857-870.
Zhu, H. X., Thorpe, S. M., & Windle, A. H. (2006). The effect of cell irregularity on the high strain compression of 2D Voronoi honeycombs. International Journal of Solids and Structures, 43(5), 1061-1078.
Chen, Y. J., Scarpa, F., Liu, Y. J., & Leng, J. S. (2013). Elasticity of anti-tetrachiral anisotropic lattices. International Journal of Solids and Structures, 50(6), 996-1004.
Gibson, L. J., & Ashby, M. F. (1997). Cellular solids: structure and properties. Cambridge university press.
Gong, L., Kyriakides, S., & Jang, W. Y. (2005). Compressive response of open-cell foams. Part I: Morphology and elastic properties. International Journal of Solids and Structures, 42(5), 1355-1379.
Hou, Y., Neville, R., Scarpa, F., Remillat, C., Gu, B., & Ruzzene, M. (2014). Graded conventional-auxetic Kirigami sandwich structures: Flatwise compression and edgewise loading. Composites Part B: Engineering, 59, 33-42.
Khan, M. K., Baig, T., & Mirza, S. (2012). Experimental investigation of in-plane and out-of-plane crushing of aluminum honeycomb. Materials Science and Engineering: A, 539, 135-142.
Lascoup, B., Aboura, Z., Khellil, K., & Benzeggagh, M. (2010). Homogenization of the core layer in stitched sandwich structures. Composites Science and Technology, 70(2), 350-355.
Ren, X. J., & Silberschmidt, V. V. (2008). Numerical modelling of low-density cellular materials. Computational materials science, 43(1), 65-74.
Saito, K., Agnese, F., & Scarpa, F. (2011). A cellular kirigami morphing wingbox concept. Journal of intelligent material systems and structures, 22(9), 935-944.
Scarpa, F., Panayiotou, P., & Tomlinson, G. (2000). Numerical and experimental uniaxial loading on in-plane auxetic honeycombs. The Journal of Strain Analysis for Engineering Design, 35(5), 383-388.
Silva, M. J., Hayes, W. C., & Gibson, L. J. (1995). The effects of non-periodic microstructure on the elastic properties of two-dimensional cellular solids. International Journal of Mechanical Sciences, 37(11), 1161-1177.
Virk, K., Monti, A., Trehard, T., Marsh, M., Hazra, K., Boba, K., ... & Farrow, I. R. (2013). SILICOMB PEEK Kirigami cellular structures: mechanical response and energy dissipation through zero and negative stiffness. Smart Materials and Structures, 22(8), 084014.
Zhu, H. X., Knott, J. F., & Mills, N. J. (1997). Analysis of the elastic properties of open-cell foams with tetrakaidecahedral cells. Journal of the Mechanics and Physics of Solids, 45(3), 319-343.
Zhu, H. X., Hobdell, J. R., & Windle, A. H. (2001). Effects of cell irregularity on the elastic properties of 2D Voronoi honeycombs. Journal of the Mechanics and Physics of Solids, 49(4), 857-870.
Zhu, H. X., Thorpe, S. M., & Windle, A. H. (2006). The effect of cell irregularity on the high strain compression of 2D Voronoi honeycombs. International Journal of Solids and Structures, 43(5), 1061-1078.