Densification behavior of ultrafine WC-based composites with AlxCoCrCuFeNi high-entropy alloy binders

IF 1.8 4区材料科学 Q2 MATERIALS SCIENCE, CERAMICS

International Journal of Applied Ceramic Technology Pub Date : 2024-12-09 DOI:10.1111/ijac.15002

Wenyan Luo, Yunzhong Liu

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Abstract

Ultrafine WC-based cemented carbides with 10 wt.%Al_xCoCrCuFeNi high-entropy alloy (HEA) binders were fabricated by spark plasma sintering, and the effects of HEA binders on the densification behavior of the WC-HEA cemented carbides were studied. The densification of the WC-HEA cemented carbide, as well as traditional WC-Co, can be divided into the slow densification stage, rapid densification stage, and final densification stage. The densification behavior of the WC-HEA cemented carbides largely depends on the performance of the HEA binder during the SPS process. The sluggish diffusion effect of HEA weakens the diffusion of W atom on the powder particle surface and inhibits the growth of WC grain. Consequently, the disappearance of pores in the sintered compact is hindered, which leads to a low relative density of the WC-HEA cemented carbide. With the increase of Al content, the inhibitory effect of the Al_xCoCrCuFeNi binder on the growth of WC grain is suppressed, and an Al-containing phase with a low melting point is more likely to form. Therefore, the relative density of the WC-10 wt.%Al_xCoCrCuFeNi cemented carbide raises linearly with increasing Al content of the HEA binder.

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AlxCoCrCuFeNi高熵合金粘结剂的超细wc基复合材料致密化行为

采用火花等离子烧结法制备了含有10 wt.%AlxCoCrCuFeNi高熵合金（HEA）粘结剂的超细wc基硬质合金，研究了HEA粘结剂对WC-HEA硬质合金致密化行为的影响。WC-HEA硬质合金和传统WC-Co硬质合金的致密化过程可分为缓慢致密化阶段、快速致密化阶段和最终致密化阶段。在SPS过程中，WC-HEA硬质合金的致密化行为在很大程度上取决于HEA粘结剂的性能。HEA的缓慢扩散作用削弱了W原子在粉末颗粒表面的扩散，抑制了WC晶粒的生长。从而阻碍了烧结坯中孔隙的消失，导致WC-HEA硬质合金的相对密度较低。随着Al含量的增加，AlxCoCrCuFeNi粘结剂对WC晶粒生长的抑制作用被抑制，更容易形成低熔点的含Al相。因此，WC-10 wt.%AlxCoCrCuFeNi硬质合金的相对密度随着HEA粘结剂Al含量的增加而线性增加。

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来源期刊

International Journal of Applied Ceramic Technology 工程技术-材料科学：硅酸盐

CiteScore

3.90

自引率

9.50%

发文量

280

审稿时长

4.5 months

期刊介绍： The International Journal of Applied Ceramic Technology publishes cutting edge applied research and development work focused on commercialization of engineered ceramics, products and processes. The publication also explores the barriers to commercialization, design and testing, environmental health issues, international standardization activities, databases, and cost models. Designed to get high quality information to end-users quickly, the peer process is led by an editorial board of experts from industry, government, and universities. Each issue focuses on a high-interest, high-impact topic plus includes a range of papers detailing applications of ceramics. Papers on all aspects of applied ceramics are welcome including those in the following areas: Nanotechnology applications; Ceramic Armor; Ceramic and Technology for Energy Applications (e.g., Fuel Cells, Batteries, Solar, Thermoelectric, and HT Superconductors); Ceramic Matrix Composites; Functional Materials; Thermal and Environmental Barrier Coatings; Bioceramic Applications; Green Manufacturing; Ceramic Processing; Glass Technology; Fiber optics; Ceramics in Environmental Applications; Ceramics in Electronic, Photonic and Magnetic Applications;