Laser Texturing to Increase the Wear Resistance of an Electrophoretic Graphene Coating on Copper Substrates

Baiocco, Gabriele; Genna, Silvio; Salvi, Daniel; Ucciardello, Nadia

doi:10.3390/ma16155359

Materials

2023

DOI: 10.3390/ma16155359

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Laser Texturing to Increase the Wear Resistance of an Electrophoretic Graphene Coating on Copper Substrates

Gabriele Baiocco,

Silvio Genna,

Daniel Salvi

et al.

Abstract: In the present paper, different surface preparations are investigated with the aim of increasing the wear behaviour of an electrophoretic graphene coating on a copper plate. The study was divided into two steps: In the first step (pre-tests), to detect the most promising pretreatment technology, five different surface preparations were investigated (electropolishing, sandblasting, degreasing and pickling, laser cleaning and laser dots).In the second step, on the basis of the results of the first step, a 32 ful… Show more

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Cited by 6 publications

References 54 publications

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Copper‐graphene coatings for improving thermal shielding of CFRPs through electrodeposition techniques

Genna,

Salvi,

Ucciardello

2024

Polymer Composites

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Today, carbon fiber reinforced plastics (CFRPs) are materials of interest several industrial sectors because of their mechanical properties and low weight. However, applications in high‐temperature areas are limited because of thermal degradation. Thus, thin coatings acting as thermal shielding and ensuring the upkeep of CFRP structural stiffness are of high interest. This work presents an innovative approach to produce copper/graphene bilayer coatings through electrodeposition and electrophoretic deposition; it consists of laser pre‐treatment of the composite surface to remove the matrix layer exposing the carbon fibers, enabling the subsequent deposition. Bi‐layer graphene/copper coatings exhibit an enhancement in copper electrodeposition efficiency of more than 59% resulting in a 97% stiffness improvement compared to the single layer copper electroplating. All the obtained coatings were able to act as a thermal shield of the CFRPs, reducing the maximum temperature of the composite by more than 60%. In particular, due to the synergistic effect of copper and graphene, the GNPs‐Cu coating achieved the highest maximum temperature reduction (81%). Cross‐sectional analysis indicates severe delamination in uncoated CFRPs, whereas double‐layer coatings maintain structural integrity and prevent delamination even under high‐energy exposure. In addition, the coated composites exhibit a higher electrical conductivity compared to the laser cleaned CFRP, with the GNPs‐Cu coating that obtained a 90% enhancement because of the outstanding electrical properties of copper and graphene.Highlights The laser cleaning pretreatment allows the electrodepositions on CFRPs. The GNP‐Cu scenario achieves the highest deposition efficiency. A 97% stiffness improvement was achieved by GNPs‐Cu scenario. GNPs‐Cu coatings exhibit the utmost reduction in resistivity (98%). The GNPs‐Cu coating achieves the highest thermal shielding performance (81%).

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Copper‐graphene coatings for improving thermal shielding of CFRPs through electrodeposition techniques

Genna,

Salvi,

Ucciardello

2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

Sustainable coating solutions: a comparative life cycle analysis of electrophoretic deposition and electroplating for graphene-reinforced anti-wear coatings

Baiocco,

Salvi,

Ucciardello

2023

Int J Adv Manuf Technol

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Electrophoretic deposition of graphene coating on copper for improved thermoelectric performance of wire rods

Baiocco,

Genna,

Salvi

et al. 2024

Int J Adv Manuf Technol

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Laser Texturing to Increase the Wear Resistance of an Electrophoretic Graphene Coating on Copper Substrates

Cited by 6 publications

References 54 publications

Copper‐graphene coatings for improving thermal shielding of CFRPs through electrodeposition techniques

Copper‐graphene coatings for improving thermal shielding of CFRPs through electrodeposition techniques

Sustainable coating solutions: a comparative life cycle analysis of electrophoretic deposition and electroplating for graphene-reinforced anti-wear coatings

Electrophoretic deposition of graphene coating on copper for improved thermoelectric performance of wire rods

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