烧结镍铝基高熵合金的力学和微结构行为

E. Olorundaisi, B. Babalola, M. L. Teffo, P. Olubambi
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引用次数: 0

摘要

利用火花等离子烧结(SPS)技术制造了高熵镍-铝-钛-锰-氯-铁-铬合金(HEA)体系。在烧结温度为 850 ℃、加热速度为 90 ℃/分钟、压力为 50 兆帕、停留时间为 5 分钟的条件下,制备了不同元素组成的合金。对烧结合金的机械特性、微观结构、相变和密度进行了评估。烧结 HEA 的微观结构演变显示出合金金属的均匀分散。烧结微结构显示出简单相和复杂相的混合。相细化显示,烧结 HEA 的晶粒尺寸较小,仅为 2.28 微米,而 Ni50Al50 合金的晶粒尺寸为 8.26 微米。同样,非等原子 HEA 的微应变值较高,为 1.25E-1,而非合金的微应变值为 1.87E-3。烧结合金的显微硬度值从 103.5 HV 到 139.2 HV 不等,而测量密度则从 5.23 g/cm3 到 6.44 g/cm3 不等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanical and Microstructural Behavior of Sintered NiAl-Based High Entropy Alloy
A high entropy Ni-Al-Ti-Mn-Co-Fe-Cr alloy (HEA) system was fabricated using spark plasma sintering (SPS). The alloys at different elemental compositions were developed at a sintering temperature of 850 °C, a heating rate of 90 °C/min, a pressure of 50 MPa, and a dwelling time of 5 min. The sintered alloys' mechanical characteristics, microstructure, phase evolution, and density were assessed. The evolved microstructure of the sintered HEAs shows a homogenous dispersion of the alloying metals. The sintered microstructures showed a mixture of simple and complex phases. The phase refinement shows that the sintered HEAs exhibited a lower and the least grain size of 2.28 µm compared to the Ni50Al50 alloy having 8.26 µm. Likewise, a higher micro-strain value of 1.25E-1 was attained by the non-equal atomic HEA, while the unalloyed has 1.87E-3. The microhardness value of the sintered alloys varied from 103.5 HV to 139.2 HV, while their measured density varied from 5.23 g/cm3 to 6.44 g/cm3.
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