Polymers Selection for Harsh Environments to Be Processed Using Additive Manufacturing Techniques

Rodríguez-Prieto A., Camacho, Ana M., Aragón, Ana M., Sebasián, Miguel A. y Yanguas-Gil, Ángel . () Polymers Selection for Harsh Environments to Be Processed Using Additive Manufacturing Techniques. IEEE Access

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Título Polymers Selection for Harsh Environments to Be Processed Using Additive Manufacturing Techniques
Autor(es) Rodríguez-Prieto A.
Camacho, Ana M.
Aragón, Ana M.
Sebasián, Miguel A.
Yanguas-Gil, Ángel
Materia(s) Ingeniería Mecánica
Abstract In this paper, a methodology for selecting a combination of polymers and their associated additive manufacturing (AM) routes is presented. The binomial consisting of materials performance for the intended application and the most suitable AM process and its production strategy is solved by the application of a multicriteria approach along with a stringency level methodology. The case study has been the analysis of physical and radiation tolerance features of thermoplastic nature candidates for the additive manufacture of mechanical, electromechanical, and electrical components for harsh environments in a nuclear power plant. The obtained results allow select an AM route along with a production strategy based on large batches or small batches. Using a selective laser sintering additive manufacturing route, PP + EPDM can be a good option to manufacture mechanical heavily stressed components, whereas PA can be a versatile material to manufacture friction components or films and sheets for electrical applications. In addition, PE would be a good option for high voltage insulation. Finally, PS would be used in radio frequency and microwave applications. On the other hand, fused deposition modeling techniques are more suitable for several materials, such as PC for mechanical applications, PE for electromechanical applications, and IR for electrical/electronic applications.
Palabras clave Additive manufacturing
harsh environment
material selection
multicriteria analysis
thermoplastics
Editor(es) IEEE
Identificador bibliuned:DptoICyF-ETSI-Articulos-Arodriguez-0005
http://e-spacio.uned.es/fez/view/bibliuned:DptoICyF-ETSI-Articulos-Arodriguez-0005
DOI - identifier 10.1109/ACCESS.2018.2844360.
ISSN - identifier 2169-3536
Nombre de la revista IEEE Access
Número de Volumen 6
Publicado en la Revista IEEE Access
Idioma eng
Versión de la publicación acceptedVersion
Tipo de recurso Article
Derechos de acceso y licencia http://creativecommons.org/licenses/by-nc-nd/4.0
info:eu-repo/semantics/openAccess
Tipo de acceso Acceso abierto
Notas adicionales The registered version of this article, first published in IEEE Access, is available online at the publisher's website: IEEE, https://doi.org/10.1109/ACCESS.2018.2844360

 
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Creado: Tue, 30 Jan 2024, 01:50:04 CET