TY - JOUR N2 - Investment casting combined with the additive manufacturing technology enables production of the thin-walled elements, that are geometrically complex, precise and can be easy commercialized. This paper presents design of aluminium alloy honeycombs, which are characterized with light structure, internal parallel oriented channels and suitable stiffness. Based on 3D printed pattern the mould was prepared from standard ceramic material subjected subsequently to appropriate heat treatment. Into created mould cavity with intricate and susceptible structure molten AC 44200 aluminium alloy was poured under low pressure. Properly designed gating system and selected process parameters enabled to limit the shrinkage voids, porosities and misruns. Compression examination performed in two directions showed different mechanisms of cell deformation. Characteristic plateau region of stress-strain curves allowed to determine absorbed energy per unit volume, which was 485 or 402 J/mm3 depending on load direction. Elaborated technology will be applied for the production of honeycomb based elements designated for energy absorption capability. L1 - http://www.journals.pan.pl/Content/113148/PDF/AFE%204_2019_12_corrected.pdf L2 - http://www.journals.pan.pl/Content/113148 PY - 2019 IS - No 4 EP - 80 DO - 10.24425/afe.2019.129633 KW - Investment casting KW - 3D printing KW - Honeycomb KW - Light structures A1 - Naplocha, K. A1 - Dmitruk, A. A1 - Mayer, P. A1 - Kaczmar, J.W. PB - The Katowice Branch of the Polish Academy of Sciences VL - vol. 19 DA - 2019.10.04 T1 - Design of Honeycomb Structures Produced by Investment Casting SP - 76 UR - http://www.journals.pan.pl/dlibra/publication/edition/113148 T2 - Archives of Foundry Engineering ER -