Print Email Facebook Twitter Numerical simulation of elastic buckling in 3D concrete printing using the lattice model with geometric nonlinearity Title Numerical simulation of elastic buckling in 3D concrete printing using the lattice model with geometric nonlinearity Author Chang, Z. (TU Delft Materials and Environment) Zhang, Hongzhi (Shandong University) Liang, M. (TU Delft Materials and Environment) Schlangen, E. (TU Delft Materials and Environment) Šavija, B. (TU Delft Materials and Environment) Date 2022 Abstract This paper explores buildability quantification of randomly meshed 3D printed concrete objects by considering structural failure by elastic buckling. The newly proposed model considers the most relevant printing parameters, including time-dependent material behaviors, printing velocity, localized damage and influence of sequential printing process. The computational uniaxial compression tests were first conducted to calibrate age-dependent elastic modulus and yield stress. Subsequently, analyses of the 3D printing process of a free wall structure and a square layout were performed. The model can reproduce the asymmetry of buckling failure accurately and the predicted critical printing height is in excellent agreement with experimental data from the literature. It can be concluded the combined effect of material variability and non-uniform gravitational loading due to sequential printing process resulted in structural failure during 3D concrete printing. Using this model, printing parameters can be optimized and a suitable printing scheme can be devised to improve structure buildability. Subject 3D concrete printingBuildability quantificationElastic bucklingGeometric nonlinearity To reference this document use: http://resolver.tudelft.nl/uuid:062676fd-3d5c-4c88-816b-0358b7fce1b9 DOI https://doi.org/10.1016/j.autcon.2022.104485 ISSN 0926-5805 Source Automation in Construction, 142 Part of collection Institutional Repository Document type journal article Rights © 2022 Z. Chang, Hongzhi Zhang, M. Liang, E. Schlangen, B. Šavija Files PDF 1_s2.0_S0926580522003582_main.pdf 4.2 MB Close viewer /islandora/object/uuid:062676fd-3d5c-4c88-816b-0358b7fce1b9/datastream/OBJ/view