Surface bonding of additive manufactured parts from multi-colored PLA materials

•3D printed multi-material parts have high potentials in future applications.•Tensile testing the additive manufactured parts.•New design aspect of the layered structures.•Calculation the adhesive bonding of the contact surfaces. Producing Multi-Material parts via Rapid Prototyping can be an excelle...

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Veröffentlicht in:	Measurement : journal of the International Measurement Confederation 2021-02, Vol.169, p.108583, Article 108583
Hauptverfasser:	Andó, Mátyás, Birosz, Márton, Jeganmohan, Sudhanraj
Format:	Artikel
Sprache:	eng
Schlagworte:	3D printing Additive manufacturing Adhesion Extrusion Fused deposition modeling Interfacial bonding Material Extrusion Mechanical properties Multi-Material Rapid prototyping Tensile tests
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container_title	Measurement : journal of the International Measurement Confederation
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creator	Andó, Mátyás Birosz, Márton Jeganmohan, Sudhanraj
description	•3D printed multi-material parts have high potentials in future applications.•Tensile testing the additive manufactured parts.•New design aspect of the layered structures.•Calculation the adhesive bonding of the contact surfaces. Producing Multi-Material parts via Rapid Prototyping can be an excellent solution for many applications, but also a challenging design task. Material Extrusion is suitable to use multiple materials simultaneously to generate a single component. In this article, the mechanical properties were examined of this kind of PLA component from tensile tests. To determine the adhesion relationship between two parts of the same sample made of PLA material of different colors, several test samples have been prepared with different types of contact surfaces. It has been taken into consideration and analyzed the horizontal-vertical adhesion and the contour lines of a Fused Deposition Modeling (FDM) additive process. In this article, the mechanical properties of the parts made from two different colored PLA in the same components manufactured with FDM technology were investigated, particularly the interfacial adhesion. This is a crucial step to understanding the behaviour of the Multi-Material parts.
doi_str_mv	10.1016/j.measurement.2020.108583
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subjects	3D printing Additive manufacturing Adhesion Extrusion Fused deposition modeling Interfacial bonding Material Extrusion Mechanical properties Multi-Material Rapid prototyping Tensile tests
title	Surface bonding of additive manufactured parts from multi-colored PLA materials
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