The dependence of Zener-Hollomon parameter on softening behavior and dynamic recrystallization mechanism of a biodegradable Zn-Cu-Mg alloy

IF 9.4 1区 材料科学 Q1 ENGINEERING, MECHANICAL
Peng Pan , Chao Chen , Guohua Wang , Kao Ning , Zhongliang Shu , Jiaqi Zhang , Taomei Zhang , Dan Li , Lu Gao , Zhaowen Geng , Li Song , Weimin Zou , Yingzhe Zhang , Jianling Liu , Kechao Zhou
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引用次数: 0

Abstract

The Zn-Cu-Mg alloy exhibits good strength, ductility, anti-aging and antibacterial properties, which lays the foundation for developing high performance Zn-based biodegradable alloys. However, the constitutive equation and dynamic recrystallization (DRX) behavior of this alloy remain unclear, making the optimization of hot processing parameters almost dependent on trial and error. This work aims to address these issues by investigating the hot compression process. The calculated average activation energy Q of this alloy is 141.338 KJ⋅mol-1, exhibiting excellent heat resistance. The deformed microstructure strongly depends on the Zener-Hollomon parameter (Z=ε˙exp(QRT)). Discontinuous DRX (DDRX) dominates at low lnZ, which has a significantly different orientation from the parent grain. Continuous DRX (CDRX) occurs within the grain and at grain boundaries, and is dominant at middle lnZ, mainly through activation 〈a〉 or/and 〈c+a〉 slip systems. Additionally, the activation of prismatic slip further promote CDRX, and most CDRX grains inherit the 30°[0001] orientation from the parent grains. The volume fraction of DRX demonstrates a decreasing trend followed by an increasing trend with increasing lnZ. At high lnZ, the increase of DRX grains is conducive to weakening the texture, and twin-induced DRX (TDRX) is significantly promoted, leading to an increase in both peak stress and strain hardening rate. Furthermore, the grains with c-axis aligned parallel to the compression direction (CD) are more prone to twinning, while the c-axis perpendicular to CD are the hard orientation of basal slip and compression twins. TEM results reveal that a decrease of c/a value promotes the activation of non-basal slip near the twin boundary, and the highly active 〈c〉 and 〈c+a〉 slips contribute to the increase of strain hardening rate. The results of this study are significant for understanding the workability of Zn-Cu-Mg alloys at high lnZ due to its high efficiency and low cost.
齐纳-霍洛蒙参数对可生物降解锌-铜-镁合金软化行为和动态再结晶机制的影响
Zn-Cu-Mg 合金具有良好的强度、延展性、抗老化和抗菌性能,这为开发高性能 Zn 基生物可降解合金奠定了基础。然而,这种合金的构成方程和动态再结晶(DRX)行为仍不清楚,使得热加工参数的优化几乎依赖于试验和错误。本研究旨在通过研究热压过程来解决这些问题。计算得出的这种合金的平均活化能 Q 为 141.338 KJ-mol-1,表现出优异的耐热性。变形微观结构在很大程度上取决于齐纳-霍洛蒙参数(Z=ε˙exp(QRT))。在低 lnZ 条件下,不连续 DRX(DDRX)占主导地位,其取向与母晶粒明显不同。连续DRX(CDRX)发生在晶粒内部和晶粒边界,在中lnZ时占主导地位,主要通过激活〈a〉或/和〈c+a〉滑移体系。此外,棱柱滑移的激活进一步促进了CDRX,大多数CDRX晶粒继承了母晶粒的30°[0001]取向。随着 lnZ 的增加,DRX 的体积分数呈先减后增的趋势。在高 lnZ 条件下,DRX 晶粒的增加有利于削弱纹理,而孪生诱导 DRX(TDRX)则显著增加,从而导致峰值应力和应变硬化率的增加。此外,c 轴平行于压缩方向(CD)的晶粒更容易产生孪晶,而与 CD 垂直的 c 轴则是基底滑移和压缩孪晶的硬取向。TEM 结果表明,c/a 值的减小会促进孪晶边界附近非基底滑移的激活,而高度活跃的〈c〉和〈c+a〉滑移有助于提高应变硬化率。这项研究的结果对了解高 lnZ 下 Zn-Cu-Mg 合金的可加工性具有重要意义,因为它效率高、成本低。
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来源期刊
International Journal of Plasticity
International Journal of Plasticity 工程技术-材料科学:综合
CiteScore
15.30
自引率
26.50%
发文量
256
审稿时长
46 days
期刊介绍: International Journal of Plasticity aims to present original research encompassing all facets of plastic deformation, damage, and fracture behavior in both isotropic and anisotropic solids. This includes exploring the thermodynamics of plasticity and fracture, continuum theory, and macroscopic as well as microscopic phenomena. Topics of interest span the plastic behavior of single crystals and polycrystalline metals, ceramics, rocks, soils, composites, nanocrystalline and microelectronics materials, shape memory alloys, ferroelectric ceramics, thin films, and polymers. Additionally, the journal covers plasticity aspects of failure and fracture mechanics. Contributions involving significant experimental, numerical, or theoretical advancements that enhance the understanding of the plastic behavior of solids are particularly valued. Papers addressing the modeling of finite nonlinear elastic deformation, bearing similarities to the modeling of plastic deformation, are also welcomed.
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