Composite materials are widely used as main parts and structural components in different fields, especially for automotive and military applications. Although these materials supply different advantages comparing to the metals, their implementation in engineering applications is limited due to low electrical and thermal properties and low resistance to erosion. To enhance these above-mentioned properties, the metallization of composite materials by creating a thin metal film on their surface can be achieved. Among different coating deposition techniques, Cold Spray appears to be the most suitable one for the metallization of temperature-sensitive materials such as polymers and composites with a thermoplastic matrix. This process relies on kinetic energy for the formation of the coating rather than on thermal energy and consequent erosion and degradation of the polymer-based composite can be avoided. In the last years, a new method to produce composite materials, as known as Fused Filament Fabrication (FFF), has been developed for industrial applications. This technique consists of a 3D printing process that involves the thermal extrusion of thermoplastic polymer and fibers in the form of filaments from a heated mobile nozzle. The implementation of this new technique is leading to the manufacturing of customized composite materials for the cold spray application. In the presented experimental campaign, Onyx material is used as a substrate. This material is made of Nylon, a thermoplastic matrix, and chopped carbon fibers randomly dispersed in it. Aluminum powders were cold sprayed on the Onyx substrate with a low-pressure cold spray (LPCS) system. This study aims to investigate the possibility of the metalizing 3D-printed composite material by cold spray technology. For this purpose, optical and microscopical analyses are carried out. Based on the results, the feasibility of the process and the influence of the morphology of the substrate are discussed, and optimal spraying conditions are proposed.

Manufacturing of aluminum coating on 3D-printed onyx with cold spray technology / della Gatta, R.; Astarita, A.; Borrelli, D.; Caraviello, A.; Delloro, F.; Lomonaco, P.; Papa, I.; Perna, A. S.; Sansone, R.; Viscusi, A.. - (2021). (Intervento presentato al convegno 24th International ESAFORM Conference on Material Forming, ESAFORM 2021 nel 2021) [10.25518/esaform21.858].

Manufacturing of aluminum coating on 3D-printed onyx with cold spray technology

della Gatta R.
;
Astarita A.;Caraviello A.;Papa I.;Perna A. S.;Sansone R.;Viscusi A.
2021

Abstract

Composite materials are widely used as main parts and structural components in different fields, especially for automotive and military applications. Although these materials supply different advantages comparing to the metals, their implementation in engineering applications is limited due to low electrical and thermal properties and low resistance to erosion. To enhance these above-mentioned properties, the metallization of composite materials by creating a thin metal film on their surface can be achieved. Among different coating deposition techniques, Cold Spray appears to be the most suitable one for the metallization of temperature-sensitive materials such as polymers and composites with a thermoplastic matrix. This process relies on kinetic energy for the formation of the coating rather than on thermal energy and consequent erosion and degradation of the polymer-based composite can be avoided. In the last years, a new method to produce composite materials, as known as Fused Filament Fabrication (FFF), has been developed for industrial applications. This technique consists of a 3D printing process that involves the thermal extrusion of thermoplastic polymer and fibers in the form of filaments from a heated mobile nozzle. The implementation of this new technique is leading to the manufacturing of customized composite materials for the cold spray application. In the presented experimental campaign, Onyx material is used as a substrate. This material is made of Nylon, a thermoplastic matrix, and chopped carbon fibers randomly dispersed in it. Aluminum powders were cold sprayed on the Onyx substrate with a low-pressure cold spray (LPCS) system. This study aims to investigate the possibility of the metalizing 3D-printed composite material by cold spray technology. For this purpose, optical and microscopical analyses are carried out. Based on the results, the feasibility of the process and the influence of the morphology of the substrate are discussed, and optimal spraying conditions are proposed.
2021
978-287019302-0
Manufacturing of aluminum coating on 3D-printed onyx with cold spray technology / della Gatta, R.; Astarita, A.; Borrelli, D.; Caraviello, A.; Delloro, F.; Lomonaco, P.; Papa, I.; Perna, A. S.; Sansone, R.; Viscusi, A.. - (2021). (Intervento presentato al convegno 24th International ESAFORM Conference on Material Forming, ESAFORM 2021 nel 2021) [10.25518/esaform21.858].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/866655
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