利用 ECAP 技术研究 Mg-8.7Gd-4.18Y-0.42Zr 镁合金的动态再结晶机制、纹理演变发展和力学特性

IF 4.8 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Progress in Natural Science: Materials International Pub Date : 2024-04-01 DOI:10.1016/j.pnsc.2024.04.002

Ling Zhang , Yinglong Li

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引用次数: 0

摘要

等沟道角压制能够细化合金晶粒并改变晶粒取向，从而获得更好的镁合金机械性能，这一点已得到公认。本研究探讨了 GW94K（Mg-8.7Gd-4.18Y-0.42Zr wt.%）镁合金在 400 ℃ 和 3 mm/min 下进行 ECAP-4 压制后的微观结构、动态再结晶机制、纹理发展和机械性能。结果表明，在进行高温变形时，孪晶形成受到抑制，而位错滑移得到促进，从而在变形过程中增加了位错密度。ECAP 变形后，样品的断裂伸长率、TYS 和 UTS 均高于溶解后的 GW94K 合金。特别是，GW94K 合金在经过 ECAP-4 次变形后，机械性能良好，极限 TYS 为 231 兆帕，UTS 为 290 兆帕，伸长率为 14.8%。在 ECAP 变形过程中，DDRX 和剪切带会诱发 CDRX，两者在塑性变形以及改变微观结构和晶粒取向方面都很重要。

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Dynamic recrystallization mechanism, texture evolution development and mechanical characteristics of a Mg–8.7Gd–4.18Y–0.42Zr magnesium alloy by ECAP

Equal channel angle pressing is recognized for its ability to refine alloy grains and alter grain orientation, thereby achieve better mechanical performance of the magnesium alloy. This study investigates the microstructures, dynamic recrystallization mechanism, texture development, and mechanical performance of GW94K (Mg–8.7Gd–4.18Y–0.42Zr wt. %) Mg alloy following ECAP-4 passes at 400 °C and 3 mm/min. Results show that when high-temperature deformation is undertaken, twin formation is suppressed while dislocation slip is facilitated, increasing dislocation density during deformation. Following ECAP deformation, the sample displayed higher fracture elongation, TYS, and UTS than the as-solutioned GW94K alloy. In particular, the GW94K alloy performed well mechanically after ECAP-4 passes, with an ultimate TYS of 231 MPa, an UTS of 290 MPa, and an elongation of 14.8 %. DDRX and shear bands induce CDRX, both of which are important in plastic deformation. as well as in modifying microstructure and grain orientation during ECAP deformation.

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来源期刊

Progress in Natural Science: Materials International 综合性期刊-综合性期刊

CiteScore

8.60

自引率

2.10%

发文量

2812

审稿时长

49 days

期刊介绍： Progress in Natural Science: Materials International provides scientists and engineers throughout the world with a central vehicle for the exchange and dissemination of basic theoretical studies and applied research of advanced materials. The emphasis is placed on original research, both analytical and experimental, which is of permanent interest to engineers and scientists, covering all aspects of new materials and technologies, such as, energy and environmental materials; advanced structural materials; advanced transportation materials, functional and electronic materials; nano-scale and amorphous materials; health and biological materials; materials modeling and simulation; materials characterization; and so on. The latest research achievements and innovative papers in basic theoretical studies and applied research of material science will be carefully selected and promptly reported. Thus, the aim of this Journal is to serve the global materials science and technology community with the latest research findings. As a service to readers, an international bibliography of recent publications in advanced materials is published bimonthly.