Effect of Three-High Rotary Piercing Process on Microstructure, Texture and Mechanical Properties of Magnesium Alloy Seamless Tube

IF 2.9 2区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Acta Metallurgica Sinica-English Letters Pub Date : 2024-04-15 DOI:10.1007/s40195-024-01690-4
Xiaofeng Ding, Zehao Wu, Tong Li, Jianxun Chen, Yuanhua Shuang, Baosheng Liu
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Abstract

Mg alloy seamless tubes (MASTs) were prepared through three-high rotary piercing process, effect of billet temperature, feed angle and plug advance on microstructure, texture and mechanical properties of tubes were investigated. The effect on the deformation mechanism and improving mechanical properties mechanism of this process for MASTs were studied. The results show that the grain size could be refined to 11.3–31.1% of the initial grain size and the microstructure was more uniform due to the accumulation of strain. The formation of high strain gradient at the grain boundary activated the non-basal slip. This piercing process could change the grain orientation of as-extruded billet and eliminate the initial basal texture to produce new favorable texture. And the process could accelerate the continuous dynamic recrystallization process. After piercing, yield strength of pierced tubes decreased by 6.7%, ultimate tensile strength (UTS) and elongation increased by 32.4 and 45%, respectively, at optimal parameters. The plate-shaped β1-Mg17Al12 orientation transformed from basal plates to prismatic plates, facilitating the increase in UTS and ductility. The decrease size of nanoscale precipitates could reduce the cracking possibility. The critical resolved shear stress ratios of pyramidal (10−11) slip and (11−22) slip to basal slip for the sample including prismatic plates both decreased compared to that including basal plates. This could enhance the ductility of tube sample. Moreover, grain boundary sliding could contribute to a better ductility via coordinating deformation and reducing stress concentration during piercing process.

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三高旋转穿孔工艺对镁合金无缝管微观结构、纹理和机械性能的影响
通过三高旋转穿孔工艺制备了镁合金无缝钢管(MAST),并研究了坯料温度、进给角度和塞子进给量对钢管微观结构、纹理和机械性能的影响。研究了该工艺对 MAST 变形机理和力学性能改善机理的影响。结果表明,由于应变的积累,晶粒尺寸可细化至初始晶粒尺寸的 11.3-31.1%,微观结构也更加均匀。晶界处形成的高应变梯度激活了非基底滑移。这种穿孔过程可以改变挤压坯料的晶粒取向,消除初始基底纹理,产生新的有利纹理。该过程还能加速连续动态再结晶过程。在最佳参数下,穿孔后穿孔管的屈服强度降低了 6.7%,极限拉伸强度(UTS)和伸长率分别提高了 32.4% 和 45%。板状的β1-Mg17Al12取向由基底板转变为棱柱板,促进了UTS和延展性的提高。纳米级析出物尺寸的减小可降低开裂的可能性。与包括基底板的试样相比,棱柱板试样的金字塔(10-11)滑移和(11-22)滑移与基底滑移的临界分辨剪应力比均有所下降。这可能会增强管状样品的延展性。此外,晶界滑动可在穿孔过程中通过协调变形和减少应力集中来提高延展性。
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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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