材料科学
钎焊
润湿
合金
坐滴法
灰烬
冶金
填充金属
碳化物
复合材料
溶解
烧结
三元运算
相(物质)
下降(电信)
碳化硼
缩进
弹性模量
压痕硬度
陶瓷
研磨
抗剪强度(土壤)
磨料
剪切模量
碳化钨
作者
Naser Hosseini,Fabrizio Valenza,Zdeněk Chlup,Sofia Gambaro,Filip Šiška,Carla Malinverni,Jie Xu,Valentina Casalegno,Alexandra Kovalčíková,Monika Tatarková,Milena Salvo,Xiaobing Zhou,Ivo Dlouhý,Peter Tatarko
标识
DOI:10.1016/j.jmrt.2025.09.182
摘要
This study aimed to design and validate a suitable brazing filler for the joining of (MoNbTaVW)C High-Entropy Carbides (HECs). CALPHAD calculations were used to analyse phase equilibria of ternary C-Ni-M (M: Mo, Ta, W) systems at 1480 °C and to select a suitable alloy composition for brazing. Wettability and high-temperature interactions with the HEC substrates were investigated using the sessile drop technique. While pure Ni provided a good wetting (≤ 15°) but an excessive dissolution, the Ni 83 Ta 17 alloy exhibited a comparable wetting with a significantly reduced dissolution due to the formation of interfacial TaC x -rich phases. Consequently, the NiTa alloy was employed as a filler to braze HEC ceramics using a pressure-less field-assisted sintering technique (FAST) furnace at 1480 °C, resulting in a crack-free, homogeneous joint. The interfacial TaC x -rich phase exhibited a high nano-hardness (∼ 24 GPa) and indentation elastic modulus (∼ 311 GPa). Single-lap offset shear tests confirmed a very high strength of the joints (∼ 220 MPa), demonstrating the viability of the NiTa alloy for joining HEC.
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