This work investigates the feasibility of increasing the electric conductivity of an AA1370 aluminium wire by using pulse-reverse electrodeposition to realize Cu-Graphene composite coating. The graphene adopted was in the form of nanoplates (GnP). To study the effects of plating parameters, a 2(3) factorial plan was developed and tested. During the tests, the following process parameters were varied: the current density, the frequency and the duty cycle. The ANalysis Of VAriance (ANOVA)) was adopted to evaluate their influence on the coated wires' morphology and electrical conductivity resistance. The results show that all the tested conditions allow good compactness to the coating, and the amount of graphene is well incorporated within the microstructure of the copper deposit. In addition, in the best conditions, the electrical resistivity decreases up to 3.4% than the uncoated aluminum.

Baiocco, G., Genna, S., Menna, E., Ucciardello, N. (2023). Study on Pulse-Reverse Electroplating Process for the Manufacturing of a Graphene-Based Coating. MATERIALS, 16(2) [10.3390/ma16020854].

Study on Pulse-Reverse Electroplating Process for the Manufacturing of a Graphene-Based Coating

Baiocco, G;Genna, S
;
Ucciardello, N
2023-01-01

Abstract

This work investigates the feasibility of increasing the electric conductivity of an AA1370 aluminium wire by using pulse-reverse electrodeposition to realize Cu-Graphene composite coating. The graphene adopted was in the form of nanoplates (GnP). To study the effects of plating parameters, a 2(3) factorial plan was developed and tested. During the tests, the following process parameters were varied: the current density, the frequency and the duty cycle. The ANalysis Of VAriance (ANOVA)) was adopted to evaluate their influence on the coated wires' morphology and electrical conductivity resistance. The results show that all the tested conditions allow good compactness to the coating, and the amount of graphene is well incorporated within the microstructure of the copper deposit. In addition, in the best conditions, the electrical resistivity decreases up to 3.4% than the uncoated aluminum.
2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-IND/16 - TECNOLOGIE E SISTEMI DI LAVORAZIONE
English
Con Impact Factor ISI
aluminum
pulse reverse electroplating
composite coatings
graphene
electrical conductivity
https://www.mdpi.com/1996-1944/16/2/854
Baiocco, G., Genna, S., Menna, E., Ucciardello, N. (2023). Study on Pulse-Reverse Electroplating Process for the Manufacturing of a Graphene-Based Coating. MATERIALS, 16(2) [10.3390/ma16020854].
Baiocco, G; Genna, S; Menna, E; Ucciardello, N
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/316402
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