Mechanical properties of 3D printed MAX Phases

E. Tabares; G. Mazón-Ortíz; S. C. Cifuentes; M. Kitzmantel; E. Neubauer; S. A. Tsipas; A. Jimenez-Morales

Mechanical properties of 3D printed MAX Phases

E. Tabares, G. Mazón-Ortíz, S. C. Cifuentes, M. Kitzmantel, E. Neubauer, S. A. Tsipas, A. Jimenez-Morales

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

Resumen

MAX phases are a group of ternary carbides and nitrides with a fixed stoichiometry and nanolaminated structure that combine some of the most interesting metallic and ceramic properties, with good electrical and thermal conductivity and good mechanical properties at high temperature. In terms of Additive Manufacturing technologies, Composite Extrusion Modelling (CEM) stands as a promising alternative for printing materials that are not suited for other Additive Manufacturing techniques. In this processing route, feedstocks in pellet or granulate form are extruded, avoiding difficult steps of filament production and widening the selection of polymeric binder compositions, since filament flexibility and uniformity is not required for the pellet materials. In this work, two MAX phases (Ti₃SiC₂ and Cr₂AlC) have been printed through CEM using a multicomponent binder (PEG/CAB) for the feedstock production. Mechanical properties of the printed samples with the desired geometry were analysed after debinding and sintering.

Idioma original	Inglés
Título de la publicación alojada	Euro PM2021 Congress Proceedings
Editorial	European Powder Metallurgy Association (EPMA)
ISBN (versión digital)	9781899072545
Estado	Publicada - 2021
Publicado de forma externa	Sí
Evento	2021 European Powder Metallurgy Congress and Exhibition, Euro PM 2021 - Virtual, Online Duración: 18 oct. 2021 → 22 oct. 2021

Serie de la publicación

Nombre	Euro PM2021 Congress Proceedings

Conferencia

Conferencia	2021 European Powder Metallurgy Congress and Exhibition, Euro PM 2021
Ciudad	Virtual, Online
Período	18/10/21 → 22/10/21

Nota bibliográfica

Publisher Copyright:
© European Powder Metallurgy Association (EPMA)

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title = "Mechanical properties of 3D printed MAX Phases",

abstract = "MAX phases are a group of ternary carbides and nitrides with a fixed stoichiometry and nanolaminated structure that combine some of the most interesting metallic and ceramic properties, with good electrical and thermal conductivity and good mechanical properties at high temperature. In terms of Additive Manufacturing technologies, Composite Extrusion Modelling (CEM) stands as a promising alternative for printing materials that are not suited for other Additive Manufacturing techniques. In this processing route, feedstocks in pellet or granulate form are extruded, avoiding difficult steps of filament production and widening the selection of polymeric binder compositions, since filament flexibility and uniformity is not required for the pellet materials. In this work, two MAX phases (Ti3SiC2 and Cr2AlC) have been printed through CEM using a multicomponent binder (PEG/CAB) for the feedstock production. Mechanical properties of the printed samples with the desired geometry were analysed after debinding and sintering.",

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author = "E. Tabares and G. Maz{\'o}n-Ort{\'i}z and Cifuentes, {S. C.} and M. Kitzmantel and E. Neubauer and Tsipas, {S. A.} and A. Jimenez-Morales",

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Tabares, E, Mazón-Ortíz, G, Cifuentes, SC, Kitzmantel, M, Neubauer, E, Tsipas, SA & Jimenez-Morales, A 2021, Mechanical properties of 3D printed MAX Phases. En Euro PM2021 Congress Proceedings. Euro PM2021 Congress Proceedings, European Powder Metallurgy Association (EPMA), 2021 European Powder Metallurgy Congress and Exhibition, Euro PM 2021, Virtual, Online, 18/10/21.

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AU - Tabares, E.

AU - Mazón-Ortíz, G.

AU - Cifuentes, S. C.

AU - Kitzmantel, M.

AU - Neubauer, E.

AU - Tsipas, S. A.

AU - Jimenez-Morales, A.

N1 - Publisher Copyright: © European Powder Metallurgy Association (EPMA)

PY - 2021

Y1 - 2021

N2 - MAX phases are a group of ternary carbides and nitrides with a fixed stoichiometry and nanolaminated structure that combine some of the most interesting metallic and ceramic properties, with good electrical and thermal conductivity and good mechanical properties at high temperature. In terms of Additive Manufacturing technologies, Composite Extrusion Modelling (CEM) stands as a promising alternative for printing materials that are not suited for other Additive Manufacturing techniques. In this processing route, feedstocks in pellet or granulate form are extruded, avoiding difficult steps of filament production and widening the selection of polymeric binder compositions, since filament flexibility and uniformity is not required for the pellet materials. In this work, two MAX phases (Ti3SiC2 and Cr2AlC) have been printed through CEM using a multicomponent binder (PEG/CAB) for the feedstock production. Mechanical properties of the printed samples with the desired geometry were analysed after debinding and sintering.

AB - MAX phases are a group of ternary carbides and nitrides with a fixed stoichiometry and nanolaminated structure that combine some of the most interesting metallic and ceramic properties, with good electrical and thermal conductivity and good mechanical properties at high temperature. In terms of Additive Manufacturing technologies, Composite Extrusion Modelling (CEM) stands as a promising alternative for printing materials that are not suited for other Additive Manufacturing techniques. In this processing route, feedstocks in pellet or granulate form are extruded, avoiding difficult steps of filament production and widening the selection of polymeric binder compositions, since filament flexibility and uniformity is not required for the pellet materials. In this work, two MAX phases (Ti3SiC2 and Cr2AlC) have been printed through CEM using a multicomponent binder (PEG/CAB) for the feedstock production. Mechanical properties of the printed samples with the desired geometry were analysed after debinding and sintering.

KW - Additive Manufacturing

KW - CEM

KW - CrAlC

KW - MAX phases

KW - mechanical properties

KW - TiSiC

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M3 - Contribución a la conferencia

AN - SCOPUS:85149179980

T3 - Euro PM2021 Congress Proceedings

BT - Euro PM2021 Congress Proceedings

PB - European Powder Metallurgy Association (EPMA)

T2 - 2021 European Powder Metallurgy Congress and Exhibition, Euro PM 2021

Y2 - 18 October 2021 through 22 October 2021

ER -

Mechanical properties of 3D printed MAX Phases

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