On the Factors Influencing the High Stretch–Flangeability of a Low-Density 1180 MPa Fe–Mn–Al–C–Nb δ-QP Steel

IF 2.9 2区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Dan-Dan Cui, Peng Chen, Peng-Fei Wang, Xiao-Wu Li
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Abstract

Low-density δ-quenching and partitioning (δ-QP) steels with excellent strength and ductility have been recently developed. However, there are still rare reports on the formability of δ-QP steels, which are critical for satisfying the manufacture of structural parts during the application in automotive industry. In the present work, an 1180 MPa Fe–Mn–Al–C–Nb δ-QP steel with a high ductility was adopted for the stretch–flangeability study. The δ-QP steel was developed by separated quenching and partitioning processes. A good hole expansion ratio (HER) of 34.9 ± 0.9% was obtained in the quenched steel, but it has been further increased to 52.2% by the tempering treatment. The improved stretch–flangeability was attributed to the enhanced austenite stability and deformation uniformity. On the one hand, the stability of austenite was increased by carbon partitioning during tempering, which reduced crack possibility via the suppression of the fresh martensite formation. On the other hand, the tempering treatment released the internal stress caused by martensitic transformation and reduced the difference in strength among different phases, resulting in an increase in the resistance to crack initiation and propagation.

Abstract Image

论影响低密度 1180 兆帕 Fe-Mn-Al-C-Nb δ-QP 钢高拉伸-凸缘性能的因素
最近开发出了具有优异强度和延展性的低密度δ-淬火与分割(δ-QP)钢。然而,关于δ-QP 钢成型性的报道仍然很少,而δ-QP 钢对于满足汽车工业应用中结构零件的制造至关重要。本研究采用了一种具有高延展性的 1180 MPa Fe-Mn-Al-C-Nb δ-QP 钢进行拉伸法兰性研究。这种 δ-QP 钢是通过分离式淬火和分割工艺开发出来的。淬火钢的孔扩展率(HER)为 34.9 ± 0.9%,回火处理后进一步提高到 52.2%。拉伸法兰性能的提高归因于奥氏体稳定性和变形均匀性的增强。一方面,奥氏体的稳定性通过回火过程中的碳分配而得到提高,从而抑制了新鲜马氏体的形成,降低了开裂的可能性。另一方面,回火处理释放了马氏体转变产生的内应力,减少了不同相之间的强度差异,从而提高了抗裂纹萌生和扩展的能力。
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来源期刊
Acta Metallurgica Sinica-English Letters
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.
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