2013
DOI: 10.3390/e15072833
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Microstructure of Laser Re-Melted AlCoCrCuFeNi High Entropy Alloy Coatings Produced by Plasma Spraying

Abstract: An AlCoCrCuFeNi high-entropy alloy (HEA) coating was fabricated on a pure magnesium substrate using a two-step method, involving plasma spray processing and laser re-melting. After laser re-melting, the microporosity present in the as-sprayed coating was eliminated, and a dense surface layer was obtained. The microstructure of the laser-remelted layer exhibits an epitaxial growth of columnar dendrites, which originate from the crystals of the spray coating. The presence of a continuous epitaxial growth of colu… Show more

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Cited by 92 publications
(31 citation statements)
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“…Yue et al 44 modeled the CET process in the AlCoCrCuFeNi HEA coating, based on the Kurz-Giovanola-Trivedi (KGT) model and Hunt's criterion. From the modeling results, the columnar crystal growth was maintained when the volume fraction of equiaxed crystals is below 0.66%.…”
Section: Columnar-to-equiaxed Crystal Transitionmentioning
confidence: 99%
“…Yue et al 44 modeled the CET process in the AlCoCrCuFeNi HEA coating, based on the Kurz-Giovanola-Trivedi (KGT) model and Hunt's criterion. From the modeling results, the columnar crystal growth was maintained when the volume fraction of equiaxed crystals is below 0.66%.…”
Section: Columnar-to-equiaxed Crystal Transitionmentioning
confidence: 99%
“…This increase can be attributed to the lower density and, hence, the floating tendency of the Cr-rich liquid in the laser-melted pool. According to previous descriptions of the melt and the solidification process in the laser-melted pool, the crystal growth velocity (v) depends on the location and is linked to the heat source velocity (i.e., laser feed rate, v s ) [10,11]. The crystal growth velocity, v, will increase rapidly from zero at the bottom of the alloy to a value close to v s at the surface, and is accompanied with a decrease of the time interval (Δt) between the start of liquid separation and solidification.…”
Section: Solidification Behavior and Microstructuresmentioning
confidence: 99%
“…Up to now, a number of technologies have been applied to fabricate HEA films and coatings, e.g. magnetron sputtering [34][35][36], laser cladding [37,38], spraying [39], electrodeposition [40], plasma-transferred arc cladding [41], and others. The present experimental results have proved that HEA films and coatings can show excellent mechanical and physical properties, such as the high hardness and elastic modulus [42,43], superior wear resistance [44], corrosion [45] and temperature resistance [46], as well as the appealing electrical [47] and magnetic properties [48].…”
Section: Introductionmentioning
confidence: 99%