A Multiscale Topographical Surface Analysis of High Entropy Alloys Coatings by Laser Melting

Maxence Bigerelle; Anaïs Galliere; Yucelys Y Santana; Hervé Morvan; Mirentxu Dubar; Jean-François Trelcat; Laurent Boilet; Emmanuel Paris

doi:10.3390/ma16020629

A Multiscale Topographical Surface Analysis of High Entropy Alloys Coatings by Laser Melting

Materials (Basel). 2023 Jan 9;16(2):629. doi: 10.3390/ma16020629.

Authors

Maxence Bigerelle¹, Anaïs Galliere¹, Yucelys Y Santana¹, Hervé Morvan¹, Mirentxu Dubar¹, Jean-François Trelcat², Laurent Boilet², Emmanuel Paris³

Affiliations

¹ Laboratoire d'Automatique, de Mécanique et d'Informatique Industrielles et Humaines-LAMIH, University Polytechnique Hauts-de-France, CNRS, UMR 8201, 59313 Valenciennes, France.
² Belgian Ceramic Research Centre, 7000 Mons, Belgium.
³ Bruker Nano Surface Division, 7 rue de la croix Martre, 91120 Palaiseaux, France.

Abstract

High Entropy Alloys (HEAs) coatings obtained by laser melting (LM) technique were studied through a multiscale topographical surface analysis using a focus variation microscope. The laser melting creates a multiscale topography from under-powder size (incomplete or complete powder melting) to upper-powder size (process conditions). The surface topography must be optimized because of the significant influence on friction and material transfer during sliding wear. The analyses were shown that different pre-melting zone interactions were present. Statistical analysis based on covariance analyses is allowed to highlight the different process melting scales. The best LM parameter values to minimize Surface Heterogeneity were laser power (Pw) of 55 W, laser exposition time (te) of 1750 µs, and distance between two pulses (dp) of 100 µm.

Keywords: HEAs coatings; focus variation; multiscale topographical surface analysis; roughness.

Grants and funding

This work is supported by the department of the research programs of the DGO6 (Wallonia) and the Fonds Européen de Développement Régional (FEDER) through the INTERREG V France-Wallonie-Vlaanderen program “Allihentrop”. The authors also thank the project ELSAT 2020 supported by the European Union with the European Regional Development Fund, the French State, and the Hauts-de-France Region Council.