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Numerical and experimental analysis of the structural performance of AM components built by fused filament fabrication Narges Dialami . Michele Chiumenti . Miguel Cervera . Riccardo Rossi . Uxue Chasco . Miquel Domingo

Received: 11 July 2020 / Accepted: 26 September 2020  Springer Nature B.V. 2020

Abstract This work analyses the performance of parts built by Additive Manufacturing (AM) using fused filament fabrication (FFF) demonstrating the correlation between the printing orientation and structural performance. FFF components present two regions showing different mechanical behaviour: the external contour and the inner structure (in-fills or lattice). The respective mechanical properties of the contour and the inner structure are obtained. In this work the inner structure is replaced by an anisotropic homogenized material. A Representative Volume Element with Periodic Boundary conditions is adopted

N. Dialami (&)  M. Chiumenti  M. Cervera  R. Rossi  U. Chasco International Center for Numerical Methods in Engineering (CIMNE), Universidad Polite´cnica de Catalun˜a, Campus Norte UPC, 08034 Barcelona, Spain e-mail: [email protected] M. Chiumenti e-mail: [email protected] M. Cervera e-mail: [email protected] R. Rossi e-mail: [email protected] U. Chasco e-mail: [email protected] M. Domingo Fundacio´ Eurecat, Av. Universitat Auto`noma, 23, 08290 Cerdanyola del Valle`s, Spain e-mail: [email protected]

to obtain the corresponding equivalent constitutive tensor. On the other hand, the contour is considered isotropic. The material characterization of both the infill and the contour is done following two complementary strategies: (1) an experimental campaign involving several tensile tests on FFF specimens; (2) a sensitivity analysis through numerical modelling. Performing experiments to obtain the material properties for contour and in-fill may be a challenging task. Thus, the numerical modelling and the optimization technique are used to obtain the material properties as a function of the filament properties. Calibration of the structural response of 3D-printed demonstrators under bending and torsion is done in order to optimize the material parameters of the numerical model by minimising the difference between the experimental and numerically computed structural stiffness. It is shown that assuming isotropic behaviour for the contour results in a negligible error. The AM software so calibrated can be used for analysing the mechanical performance of FFF components and selecting the optimal printing orientation as well as the contour thickness and in-fill density to satisfy the structural performance required. Keywords Additive manufacturing  Fused filament fabrication  Representative volume element  Homogenization  Anisotropy

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1 Introduction Additive Manufacturing (AM), also known as 3D printing is a technique to fabricate parts and components from a Computer-Aided Design (CAD) model. This is done through layer-by-l

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