Considerations on the Applicability of Test Methods for Mechanical Characterization of Materials Manufactured by FDM

The lack of specific standards for characterization of materials manufactured by Fused Deposition Modelling (FDM) makes the assessment of the applicability of the test methods available and the analysis of their limitations necessary; depending on the definition of the most appropriate specimens on...

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Veröffentlicht in:	Materials 2019-12, Vol.13 (1), p.28
Hauptverfasser:	García-Domínguez, Amabel, Claver, Juan, Camacho, Ana María, Sebastián, Miguel A
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Sprache:	eng
Schlagworte:	Additive manufacturing Case studies Filaments Fused deposition modeling Mechanical properties Morphology
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creator	García-Domínguez, Amabel Claver, Juan Camacho, Ana María Sebastián, Miguel A
description	The lack of specific standards for characterization of materials manufactured by Fused Deposition Modelling (FDM) makes the assessment of the applicability of the test methods available and the analysis of their limitations necessary; depending on the definition of the most appropriate specimens on the kind of part we want to produce or the purpose of the data we want to obtain from the tests. In this work, the Spanish standard UNE 116005:2012 and international standard ASTM D638-14:2014 have been used to characterize mechanically FDM samples with solid infill considering two build orientations. Tests performed according to the specific standard for additive manufacturing UNE 116005:2012 present a much better repeatability than the ones according to the general test standard ASTM D638-14, which makes the standard UNE more appropriate for comparison of different materials. Orientation on-edge provides higher strength to the parts obtained by FDM, which is coherent with the arrangement of the filaments in each layer for each orientation. Comparison with non-solid specimens shows that the increase of strength due to the infill is not in the same proportion to the percentage of infill. The values of strain to break for the samples with solid infill presents a much higher deformation before fracture.
doi_str_mv	10.3390/ma13010028
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subjects	Additive manufacturing Case studies Filaments Fused deposition modeling Mechanical properties Morphology
title	Considerations on the Applicability of Test Methods for Mechanical Characterization of Materials Manufactured by FDM
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