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Densification behaviour of pure copper processed through cold pressing and binder jetting under different atmospheres

Tobia Romano, Emanuele Migliori, Marco Mariani, N. Lecis, Maurizio Vedani

2022Rapid Prototyping Journal17 citationsDOIOpen Access PDF

Abstract

Purpose Binder jetting is a promising route to produce complex copper components for electronic/thermal applications. This paper aims to lay a framework for determining the effects of sintering parameters on the final microstructure of copper parts fabricated through binder jetting. Design/methodology/approach The knowledge gained from well-established powder metallurgy processes was leveraged to study the densification behaviour of a fine high-purity copper powder (D 50 of 3.4 µm) processed via binder jetting, by performing dilatometry and microstructural characterization. The effects of sintering parameters on densification of samples obtained with a commercial water-based binder were also explored. Findings Sintering started at lower temperature in cold-pressed (∼680 °C) than in binder jetted parts (∼900 °C), because the strain energy introduced by powder compression reduces the sintering activation energy. Vacuum sintering promoted pore closure, resulting in greater and more uniform densification than sintering in argon, as argon pressure stabilizes the residual porosity. About 6.9% residual porosity was obtained with air sintering in the presence of graphite, promoting solid-state diffusion by copper oxide reduction. Originality/value This paper reports the first systematic characterization of the thermal events occurring during solid-state sintering of high-purity copper under different atmospheres. The results can be used to optimize the sintering parameters for the manufacturing of complex copper components through binder jetting.

Topics & Concepts

SinteringMaterials sciencePowder metallurgyPorosityCopperMetallurgyMicrostructureGraphiteComposite materialAdvanced materials and compositesAluminum Alloys Composites PropertiesAdvanced ceramic materials synthesis
Densification behaviour of pure copper processed through cold pressing and binder jetting under different atmospheres | Litcius