Effect of the Boriding Environment on the Wear Response of Laser-Clad Alcocrfeni High Entropy Alloy Coatings
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Date
2022
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Elsevier Science Sa
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Green Open Access
Yes
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Abstract
Laser-clad AlCrFeCoNi high entropy alloy (HEA) coatings, produced on the surface of AISI 316 L stainless steel, were pack-borided at 1000 ?C for 4 h in open air, high-purity Ar and vacuum environments. The HEA, which had an initial hardness of 6.14 +/- 2.06 GPa, formed a complex boride layer consisting of (CoFe)B-2, (CrFe)B(2 )and Cr(2)Ni(3)B(6 )phases on its surface, with hardness ranging from 15.95 +/- 0.7 to 20.15 +/- 4.50 GPa as a result of the boriding process. While the greatest boride layer thickness was obtained in the sample borided in vacuum, the highest surface hardness was obtained in the sample borided in air. The borided coatings showed improved wear resistance and lower friction values compared to the untreated control samples, both at 25 ?C and 650 ?C. The borided coatings also showed reduced coefficients of friction at 650 ?C. The wear losses at 650 ?C significantly exceeded those at 25 ?C.
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ORCID
Keywords
High entropy alloy, Laser cladding, Boriding, Friction, Wear, Tribological Properties, Sluggish Diffusion, Behavior, Resistance, Phase, Microstructure, Strength, Titanium, Surface, Indentation, Wear resistance, High purity, High-entropy alloys, Friction, Engineering & Materials Science - Metallurgical Engineering - High-Entropy Alloys, Alloy coatings, Wear response, Entropy, Cobalt alloys, AISI 316, High-entropy Alloys, Materials Science, Resistance, Laser clad, Borides, Boride layers, Wear, Hardness, Iron alloys, Vacuum environment, Laser Cladding, Materials Chemistry, Microstructure, High Entropy Alloy, Titanium, Behavior, Physics, Chromium alloys, Boriding process, Laser cladding, Aluminum alloys, Surface, Wear of materials, Tribological properties, Phase, Laves Phases, Sluggish diffusion, High entropy alloys, High entropy alloy, Strength, Indentation, Boriding, 316 L stainless steel
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Fields of Science
02 engineering and technology, 01 natural sciences, 0103 physical sciences, 0210 nano-technology
Citation
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Q1
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Q1
OpenCitations Citation Count
41
Source
Surface & Coatings Technology
Volume
447
Issue
Start Page
128830
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CrossRef : 50
Scopus : 60
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Mendeley Readers : 42
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59
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