【摘要】 通过XRD,SEM,EDS分析和显微硬度测试,研究了Fe含量对CrMoVNbFe_x高熵合金铸态组织的相结构变化、微观组织和力学性能的影响。结果表明,随Fe含量的增加,合金相结构由单一的bcc结构固溶体逐步转化为bcc和σ两相结构。合金的铸态组织为典型树枝晶,Mo主要分布在枝晶内,Fe和Cr主要分布在枝晶间,随Fe含量的增加,Nb在枝晶间的含量增加。随Fe含量的增加,合金的组织显著细化,而且显著提高合金的硬度,最高硬度达到HV950。更多还原

【Abstract】 The effect of Fe content on the phase constituent, microstructure and mechanical properties of Cr Mo VNb Fexhigh-entropy alloys were investigated by using of XRD, SEM, EDS and microhardness tester. The results reveal that Cr Mo VNb Fexalloys exhibited as a solid solution of single bccphase without Fe, whereas bcc solid solution+ intermetallic σ phase was observed with the increase of Fe content. The as-cast alloys show a microstructure with typical casting dendrites. It was found that Mo mainly exist in the dendrite, Fe and Cr concentrated mainly in the interdendriticspace and the Nb content in the interdendriticspace was slightly higher than that in the dendrite. With the increasing Fe content, the microstructure of alloys is refined and the hardness is enhanced significantly and the maximum hardness value of the Cr Mo VNb Fexhigh-entropy alloys reaches HV950.更多还原