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Título
Analysis of the anisotropy in parts for medical applications created by the superposition of layers of PLA and epoxy resin with the FFF & Robocasting techniques
Autor(es)
Palabras clave
FFF
Anisotropy Robocasting
Composite material
Medical parts
Clasificación UNESCO
2410.02 Anatomía Humana
Fecha de publicación
2019
Editor
Association for Computing Machinery
Citación
Alberto Sánchez Ramírez, Roberto D’Amato, Fernando Blaya Haro, Juan A. Juanes and Manuel Islán Marcos. 2019. Analysis of the anisotropy in parts for medical applications created by the superposition of layers of PLA and epoxy resin with the FFF & Robocasting techniques. In Proceedings of the Seventh International Conference on Technological Ecosystems for Enhancing Multiculturality (TEEM 2019) (León, Spain, October 16-18, 2019), ACM, New York, NY, USA, 6 pages. https://doi.org/10.1145/3362789.3362863
Resumen
[EN]The purpose of this study is to analyze the anisotropy of a new
additive manufacturing technique that will use thermoplastic
material and epoxy resin to create the creation of usable parts
for the medical industry.
In the article "Novel Technique Based on Fused Filament
Fabrication (FFF) and Robocasting to Create Composite Medical
Parts", the manufacturing technique was analyzed and it was
concluded that the combination of a thermoplastic and an epoxy
resin opens a new path in the manufacture of additives since it
allows to create pieces with new qualities without being
conditioned by the design.
In this article we have analyzed specimens that have been
printed vertically to obtain a study of the anisotropy and the
incidence in the thermoplastic of the inclusion of the epoxy resin
with respect to the adhesion between layers.
The new system of additive manufacturing has not allowed
improving the adhesion between layers of natural PLA but has
allowed raising future investigations observing the fracture of
the test tubes.
URI
ISBN
9781450371919
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