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On flexural properties of additive manufactured composites: Experimental, and numerical study

David Krzikalla, Jakub Měsíček, Radim Halama, Jiří Hajnyš, Marek Pagáč, Tomáš Čegan, Jana Petrů

2021Composites Science and Technology48 citationsDOIOpen Access PDF

Abstract

Components prepared by additive technologies are increasingly utilized because of shape freedom and new possibilities of fibre reinforcing. Therefore, it is important to investigate the mechanical properties and possibilities of numerical simulations of theirs. This study is focused on the experimental and numerical examination of the flexural properties of FDM long carbon fibre reinforced composites with polymeric matrix of Onyx by 3-point bending test. Two fibre volumetric contents and two reinforced layer distributions were investigated. The experiments served also as case studies for the verification of numerical models. Four types of finite element models were proposed and examined. Analytical and RVE homogenisation methods were utilized. Except the flexural properties obtained, the results suggested that the reinforced layer distribution is crucial over the fibre content. Both homogenisation methods showed comparable longitudinal material constants but very dissimilar shear and transversal constants. Nonetheless, the results suggested that the influence of transversal constants can be negligible under certain stress states. Layered shell element model and solid element model reinforced by trusses showed excellent accuracy with respect to the experiments. Optical microscopy confirmed the correct distribution of the reinforced fibres and revealed the real structure of the printed composites.

Topics & Concepts

Materials scienceComposite materialFlexural strengthFinite element methodBendingThree point flexural testTrussStructural engineeringEngineeringAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsMaterial Selection and Properties