The demand for lightweight yet mechanically robust components has driven the exploration of lattice structures, which offer superior weight-to-strength ratios compared to traditional bulk materials. This study investigates the elastic–plastic behaviour of Polyamide 12 (PA12) lattice structures manufactured via multi jet fusion (MJF). The research combines experimental, numerical, and theoretical approaches to develop a robust framework for the mechanical homogenization of these structures. Tensile tests were performed on bulk and graded lattice specimens to characterize their constitutive behaviour. A simplified homogenization method, integrating periodic boundary conditions (PBCs) with the Hill yielding criterion and Levy-Mises plastic flow rule, was developed to model the anisotropic plastic response of representative volume elements (RVEs). This framework accounts for direction-dependent hardening, enabling efficient prediction of lattice behaviour under complex loading scenarios. N...
Lightweight Design of Polymeric Thin-Walled Components: Latticization and Elastic–Plastic Homogenization / Romanelli, L.; Santus, C.; Senegaglia, I.; Tamburrino, F.; Controzzi, M.; Corrado, A.; Perini, M.; Kumar, D.; Biasi, R. De; Benedetti, M.. - In: JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY. - ISSN 2238-7854. - 2025, 36:(2025), pp. 2977-2993. [10.1016/j.jmrt.2025.03.137]
Lightweight Design of Polymeric Thin-Walled Components: Latticization and Elastic–Plastic Homogenization
Corrado, A.;Kumar, D.;Benedetti, M.Ultimo
2025-01-01
Abstract
The demand for lightweight yet mechanically robust components has driven the exploration of lattice structures, which offer superior weight-to-strength ratios compared to traditional bulk materials. This study investigates the elastic–plastic behaviour of Polyamide 12 (PA12) lattice structures manufactured via multi jet fusion (MJF). The research combines experimental, numerical, and theoretical approaches to develop a robust framework for the mechanical homogenization of these structures. Tensile tests were performed on bulk and graded lattice specimens to characterize their constitutive behaviour. A simplified homogenization method, integrating periodic boundary conditions (PBCs) with the Hill yielding criterion and Levy-Mises plastic flow rule, was developed to model the anisotropic plastic response of representative volume elements (RVEs). This framework accounts for direction-dependent hardening, enabling efficient prediction of lattice behaviour under complex loading scenarios. N...| File | Dimensione | Formato | |
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JMRT2025Lattice.pdf
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Descrizione: Journal of Materials Research and Technology 36 (2025) 2977–2993
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