Uncovering Microstructure–Property Relationship in Ni-Alloyed Fe–Mn–Al–C Low-Density Steel Treated by Hot-Rolling and Air-Cooling Process

IF 2.9 2区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Acta Metallurgica Sinica-English Letters Pub Date : 2024-02-17 DOI:10.1007/s40195-024-01666-4

Xiaoliang Jia, Guhui Gao, Xiaolu Gui, Chun Feng, R. D. K. Misra, Bingzhe Bai

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Abstract

This paper focuses on the relationship between the microstructure and tensile properties of Fe–Mn–Al–C low-density high-strength steel processes by hot-rolling and air-cooling process. The microstructure analysis reveals that the combination of hot-rolling and air-cooling results in the formation of heterogeneous structures comprising different-sized γ and B2 phases in the low-density steel with the addition of nickel (Ni). The addition of Ni promotes the formation of the B2 phase and induces the pinning of B2 phase particles at the γ grain boundaries. This pinning effect effectively hinders the growth of the γ grains, leading to grain refinement. The tensile test results demonstrate that LDS-5Ni (low-density steel, LDS) exhibits excellent high strength and ductility combination, e.g., a tensile strength of 1535 MPa, yield strength of 1482 MPa, and elongation of 23.3%. These remarkable mechanical properties are primarily attributed to the combined strengthening contributions of grain refinement and duplex nano-sized second-phase precipitation hardening.

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揭示热轧和空冷工艺处理的 Ni-Al 合金 Fe-Mn-Al-C 低密度钢的显微结构与性能关系

摘要本文重点研究了热轧和空冷工艺加工的Fe-Mn-Al-C低密度高强度钢的显微组织与拉伸性能之间的关系。微观结构分析表明，热轧和空冷相结合的工艺会在添加镍（Ni）的低密度钢中形成由不同尺寸的γ相和B2相组成的异质结构。镍的加入促进了 B2 相的形成，并诱导 B2 相颗粒在 γ 晶界处钉合。这种钉住效应有效地阻碍了 γ 晶粒的生长，从而导致晶粒细化。拉伸试验结果表明，LDS-5Ni（低密度钢，LDS）具有出色的高强度和延展性组合，例如抗拉强度为 1535 兆帕，屈服强度为 1482 兆帕，伸长率为 23.3%。这些优异的机械性能主要归功于晶粒细化和双相纳米级第二相沉淀硬化的共同强化作用。

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来源期刊

Acta Metallurgica Sinica-English Letters METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

6.60

自引率

14.30%

发文量

122

审稿时长

2 months

期刊介绍： This international journal presents compact reports of significant, original and timely research reflecting progress in metallurgy, materials science and engineering, including materials physics, physical metallurgy, and process metallurgy.