Linking formulation feedstock to printability by robocasting: A case study of eco-friendly alumina pastes

Delphine Gourdonnaud; Julie Bourret; Vincent Pateloup; Lisa Giardi; Luc Picton; Vincent Chaleix; Thierry Chartier; Benoit Naït-Ali; Marguerite Bienia; Pierre-Marie Geffroy

Open Ceramics (Jun 2024)

Linking formulation feedstock to printability by robocasting: A case study of eco-friendly alumina pastes

Delphine Gourdonnaud,
Julie Bourret,
Vincent Pateloup,
Lisa Giardi,
Luc Picton,
Vincent Chaleix,
Thierry Chartier,
Benoit Naït-Ali,
Marguerite Bienia,
Pierre-Marie Geffroy

Affiliations

Delphine Gourdonnaud: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Julie Bourret: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France; Corresponding author.
Vincent Pateloup: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Lisa Giardi: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Luc Picton: University of Rouen Normandie, INSA Rouen Normandie, CNRS, PBS UMR 6270, F-76000 Rouen, France
Vincent Chaleix: LABCiS, UR 22722, University of Limoges, 33 rue François Mitterrand, F-87032, Limoges, France
Thierry Chartier: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Benoit Naït-Ali: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Marguerite Bienia: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France
Pierre-Marie Geffroy: CNRS, Institute of Research for Ceramic (IRCER), UMR 7315, University of Limoges, European Ceramic Center, 12 rue Atlantis, F-87068, Limoges, Cedex, France

Journal volume & issue: Vol. 18
p. 100606

Abstract

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Robocasting stands as a pertinent additive manufacturing technique for producing intricate ceramic parts. Amidst stricter environmental regulations, the adoption of natural additives becomes imperative. This study investigates the influence of plant-based additives on the rheology and printability of eco-friendly pastes.Various 50 vol%-alumina pastes were formulated using natural binders, plasticizers and dispersants (e.g., lignosulfonate, polysaccharides, glycerol) and then assessed through oscillation and flow rheological analyses. Paste viscosity and rigidity often deviated from printability maps reported in the literature, showing the complexity of defining universal printability criteria. A comprehensive investigation was conducted on the water retention capabilities of additives, liquid phase migration and paste drying kinetics.This paper highlights the critical importance of constraining liquid phase migration within eco-friendly ceramic pastes and the crucial role of polymer chain reorientation under shear. Consequently, this research lays diversifying formulations, offering sustainable solutions for industrial ceramic applications.

Published in Open Ceramics

ISSN: 2666-5395 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Clay industries. Ceramics. Glass
Website: https://www.journals.elsevier.com/open-ceramics

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