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Study on Effect of High-Entropy Alloy Binder on Microstructure and Properties of WC Cemented Carbide Doped with Rare Earth Oxide

by Yongqiang Qin, Jian Yuan, Yi Zhuang, Bing Ma, Laima Luo and Yucheng Wu

Coatings 2023, 13(2), 273; https://doi.org/10.3390/coatings13020273 - 25 Jan 2023

Cited by 5 | Viewed by 2895

Abstract

The AlCoCrFeNi powder was added to WC powder as a binder and Y₂O₃/ZrO₂ was doped by the wet chemical method as grain-growth inhibitors. The WC-Y₂O₃-ZrO₂-10AlCoCrFeNi composite powders were sintered by spark plasma sintering to obtain an alloy. The microstructure and properties of the cemented carbide were studied. The result showed that the rare-earth-oxide (Y₂O₃/ZrO₂)-refined grain size of the alloy and the high-entropy alloy binder provided the alloy with better hardness and toughness. The AlCoCrFeNi diffused slowly between the WC grains because of a delayed diffusion effect and Cr having a low affinity for the WC matrix. During the dynamic process of the WC particles’ dissolution and precipitation growth, the Fe, Co, and Ni that had a better affinity for the WC matrix diffused and distributed more smoothly, which increased the strength and toughness of the alloy. When the temperature of the SPS sintering was 1250 °C, the WC-Y₂O₃-ZrO₂-10AlCoCrFeNi cemented carbide had the best properties, which was a Vickers hardness of 1888.14 HV and a fracture toughness of 14.76 MPa·m^1/2. Full article

(This article belongs to the Special Issue Microstructure Evolution, Mechanical Properties, and Applications of Nonferrous Metal Alloys)

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12 pages, 4105 KB

Open AccessArticle

Microstructure and Wear Property of ZrO₂-Added NiCrAlY Prepared by Ultrasonic-Assisted Direct Laser Deposition

by Zhengyao Yi, Chenchen Song, Guohui Zhang, Tianqi Tong, Guangyi Ma and Dongjiang Wu

Materials 2021, 14(19), 5785; https://doi.org/10.3390/ma14195785 - 3 Oct 2021

Cited by 14 | Viewed by 2482

Abstract

For improving the wear properties of NiCrAlY, the 10 wt %, 20 wt % and 30 wt % ZrO₂-added NiCrAlY samples were prepared by ultrasonic-assisted direct laser deposition, respectively. The results showed that the ultrasonic-assisted direct laser deposition can realize the ZrO₂-added NiCrAlY preparation. Furthermore, due to the cavitation effect and agitation of the ultrasound in the molten pool, ultrasonic-assisted could make the upper surface of the samples smoother and flatter, and it also improved the microstructural homogeneity. The microstructure was mainly composed of columnar dendrites, and most of ZrO₂ particles were located in the intergranular regions. The principal phase constituents were found to contain γ-Ni and t-NiZr₂, and the amorphous (Ni, Zr) intermetallic phase generated, because of more rapid solidification after ultrasound assisted. The microhardness was improved slightly with the increase of ZrO₂ contents, rising from 407.9 HV (10% ZrO₂) to 420.4 HV (30% ZrO₂). Correspondingly, wear mass loss was decreased with the maximum drop 22.7% of 30% ZrO₂ compared to that of 10% ZrO₂, and wear mechanisms were mainly abrasive wear with slightly adhesive wear. After applying ultrasound, the oxide islands in samples disappeared, and more ceramic particles were retained. Thus, the hardness and wear performance of the samples were improved. Full article

(This article belongs to the Special Issue Additive Manufacturing (AM) of Metal Alloys: Microstructure and Mechanical Performance)

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