Effect of ultrasonic energy field on plastic deformation behavior and microstructure evolution of Ti6Al4V alloy under room-temperature compression

IF 5.8 2区 材料科学 Q2 CHEMISTRY, PHYSICAL Journal of Alloys and Compounds Pub Date : 2024-09-05 DOI:10.1016/j.jallcom.2024.176337
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Abstract

The room-temperature compression tests of Ti6Al4V alloy are conducted under different ultrasonic vibration conditions. The effects of ultrasonic energy field and strain rate on the plastic deformation behaviors and microstructure evolution are carefully investigated. Moreover, by considering the effects of ultrasonic energy field, a modified Johnson-Cook (MJC) constitutive model and a deep-improved Johnson-Cook (DJC) constitutive model are constructed to represent the plastic deformation behaviors of Ti6Al4V alloy. The results indicate that the plastic deformation behaviors of Ti6Al4V alloy are remarkably affected by the ultrasonic energy field and strain rate. As the vibration amplitude rises or the strain rate decreases, the flow stress exerts a decrease trend. The introduction of ultrasonic energy field boosts the activation of {0001}<112¯0> basal slip systems and the formation of soft orientation <0001>, which facilitates dislocation multiplication and uniform distribution of dislocations. Meanwhile, dislocation motion is enhanced, and dislocation cells are smoothly rearranged into subgrain boundaries, which further promotes the grain refinement. In addition, the progress of grain rotation is accelerated toward the soft orientation <0001>, which boosts the formation of <0001>//ND texture. By comparing the measured and predicted stress, both the MJC model and the DJC model show the good agreement to reproduce the plastic deformation behavior under different ultrasonic vibration conditions. However, the higher correlation coefficient (equals to 0.999) and the lower average absolute relative error (controlled in 4.27 %) indicate that the DJC model enjoys the superior prediction capability compared to the MJC model.

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超声波能量场对室温压缩下 Ti6Al4V 合金塑性变形行为和微观结构演变的影响
在不同的超声振动条件下对 Ti6Al4V 合金进行了室温压缩试验。仔细研究了超声波能量场和应变率对塑性变形行为和微结构演变的影响。此外,考虑到超声波能量场的影响,构建了修正约翰逊-库克(MJC)构成模型和深度改进约翰逊-库克(DJC)构成模型来表示 Ti6Al4V 合金的塑性变形行为。结果表明,Ti6Al4V 合金的塑性变形行为受超声能量场和应变率的影响显著。随着振幅的增大或应变率的减小,流动应力呈减小趋势。超声波能量场的引入促进了基底滑移系统的激活和软取向的形成,从而有利于位错的增殖和均匀分布。同时,位错运动增强,位错单元顺利重新排列为亚晶粒边界,进一步促进了晶粒细化。此外,晶粒向软取向旋转的速度加快,从而促进了纹理的形成。通过比较测量应力和预测应力,MJC 模型和 DJC 模型在再现不同超声振动条件下的塑性变形行为方面表现出良好的一致性。然而,较高的相关系数(等于 0.999)和较低的平均绝对相对误差(控制在 4.27 %)表明 DJC 模型的预测能力优于 MJC 模型。
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来源期刊
Journal of Alloys and Compounds
Journal of Alloys and Compounds 工程技术-材料科学:综合
CiteScore
11.10
自引率
14.50%
发文量
5146
审稿时长
67 days
期刊介绍: The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.
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