Mo元素含量对FeAlCuCrNiMox系高熵合金组织结构及性能的影响

为了研究Mo元素对FeAlCuCrNiMo_x系高熵合金的组织结构及性能的影响，将FeAlCuCrNiMo_x系高熵合金粉末制备成药芯焊丝，并用气体保护堆焊到45钢表面制备出FeAlCuCrNiMo_x系高熵合金，而后对堆焊层进行硬度、显微组织、物相组成及耐蚀性能分析. 结果表明，FeCuCrAlNiMo_x系堆焊高熵合金呈现单一的AlFe固溶体，晶格结构为体心立方. 当x = 0.8时，合金堆焊层的晶粒尺寸最为细小，晶界强化明显，硬度最高，平均硬度达到47.8 HRC，磨损量最小，为0.08 g. 加入一定量的Mo元素之后腐蚀电位降低，即耐腐蚀性能下降.

Effect of Mo content on microstructure and properties of FeAlCuCrNiMox alloy

In order to study the effect of Mo element on the microstructure and other properties of FeAlCuCrNiMo_x high entropy alloys, FeAlCuCrNiMo_x high entropy alloy powder was used as core flux wire and then surfaced on 45 steel plate with gas protection. The hardness, microstructure and corrosion resistance of the weld were analyzed The results showed that FeCuCrAlNiMo_x series high entropy alloy consist of single body centered cubic AlFe phase. When x=0.8, the structure of alloy surfacing layer was minimal, the grain boundary was obviously strengthened, the hardness of the alloy surfacing layer was the highest, the average hardness was 47.8 HRC, and the minimum wear amount was 0.08 g. The corrosion potential reduced after a certain amount of Mo element was added, this meant that the corrosion resistance was worse.