Developing a novel Mg2Zn3Li1Gd alloy sheet with high room-temperature formability by introducing an elliptical texture distribution

IF 13.8 1区材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING Journal of Magnesium and Alloys Pub Date : 2025-02-01 DOI:10.1016/j.jma.2024.04.026

Guangjie Xue , Junjie He , Yang Chen , Zijian Zhang , Kun Yang , Yilun Zhou , Huijun Hao , Weiqi Wang , Yong Mao , Qinghang Wang

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Abstract

In recent years, modification of texture distribution has been considered a valid approach to improve the room-temperature (RT) formability of magnesium (Mg) alloys. In this study, a novel Mg2Zn3Li1Gd alloy sheet with weak elliptical-texture was fabricated by cold rolling and subsequent annealing, and it showed an excellent Erichsen (IE) value near 7.1 mm. Both quasi-in-situ electron backscatter diffraction (EBSD) and transmission electron microscopy (TEM) analysis indicate that considerable basal and pyramidal dislocations can be activated in the cold rolling process. During annealing, these dislocations can induce nucleation and then cause preferential misorientation relationships around 〈uvt0〉 concerning the nuclei and parent grains, which can facilitate the formation of elliptical texture. Furthermore, the particle-stimulated nucleation (PSN) mechanism and the co-segregation of Zn and Gd at grain boundaries (GB) further weak texture intensity. Finally, the mechanical properties of the Mg2Zn3Li1Gd alloy sheet are significantly improved.

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通过引入椭圆形纹理分布，开发具有高温室温成型性的新型镁 2Zn 3Li 1Gd 合金薄板

近年来，改变织构分布被认为是改善镁合金室温成形性能的有效途径。在本研究中，通过冷轧和随后的退火制备了一种具有弱椭圆织构的新型Mg2Zn3Li1Gd合金板材，其Erichsen （IE）值在7.1 mm附近表现优异。准原位电子背散射衍射（EBSD）和透射电子显微镜（TEM）分析表明，在冷轧过程中可以激活大量的基底位错和锥体位错。在退火过程中，这些位错可以诱导成核，然后在< uvt0 >附近形成原子核和母晶的优先错取向关系，从而促进椭圆织构的形成。此外，粒子激发形核（PSN）机制以及Zn和Gd在晶界处的共偏析（GB）进一步削弱了织构强度。最后，Mg2Zn3Li1Gd合金板材的力学性能得到了显著改善。

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来源期刊

Journal of Magnesium and Alloys Engineering-Mechanics of Materials

CiteScore

20.20

自引率

14.80%

发文量

审稿时长

59 days

期刊介绍： The Journal of Magnesium and Alloys serves as a global platform for both theoretical and experimental studies in magnesium science and engineering. It welcomes submissions investigating various scientific and engineering factors impacting the metallurgy, processing, microstructure, properties, and applications of magnesium and alloys. The journal covers all aspects of magnesium and alloy research, including raw materials, alloy casting, extrusion and deformation, corrosion and surface treatment, joining and machining, simulation and modeling, microstructure evolution and mechanical properties, new alloy development, magnesium-based composites, bio-materials and energy materials, applications, and recycling.