Producing metallic parts using 3D printing of low-viscosity powder-binder feedstock: A feasibility study

The possibility to fabricate metallic parts by material extrusion additive manufacturing of highly-filled polymer (MEAM-HP) with low-viscosity feedstock has been demonstrated in this study. Quality parts were successfully printed using a laboratory plunger-based printer and two feedstocks consisting...

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Main Authors: Côté, Raphaël, Demers, Vincent, Demarquette, Nicole R., Charlon, Sébastien, Soulestin, Jérémie
Format: Conference Proceeding
Language:English
Subjects:
Adhesives
Dimensional stability
Ethylene vinyl acetates
Feasibility studies
Organic binders
Paraffin wax
Process parameters
Raw materials
Stainless steels
Stearic acid
Three dimensional printing
Viscosity
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creator Côté, Raphaël
Demers, Vincent
Demarquette, Nicole R.
Charlon, Sébastien
Soulestin, Jérémie
description The possibility to fabricate metallic parts by material extrusion additive manufacturing of highly-filled polymer (MEAM-HP) with low-viscosity feedstock has been demonstrated in this study. Quality parts were successfully printed using a laboratory plunger-based printer and two feedstocks consisting of stainless-steel powder blended with two different compositions of organic binders made of ethylene-vinyl acetate (EVA), paraffin wax, and stearic acid. Using the first feedstock, containing 5 vol. % EVA, dimensionally stable parts were printed only for a feedstock temperature of 70 °C, while with the second feedstock, containing 10 vol. % EVA, stable parts were printed within a larger feedstock temperature range of 70 to 140 °C. The minimum feedstock temperature was defined at 85 °C to guarantee sufficient adhesion between beads and limit binder shrinkage during the cooling. Using this optimal process parameter, complex-shape parts were successfully printed confirming that complex surfaces, bridging, and overhang structures can be produced using low-viscosity feedstock without help of supports.
doi_str_mv 10.1063/5.0168410
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Adhesives
Dimensional stability
Ethylene vinyl acetates
Feasibility studies
Organic binders
Paraffin wax
Process parameters
Raw materials
Stainless steels
Stearic acid
Three dimensional printing
Viscosity
title Producing metallic parts using 3D printing of low-viscosity powder-binder feedstock: A feasibility study
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