Characterization of an Al-Cu-Mg-Zn Multi Principal Element Alloy by Experimental and Computational Screening Methods

J. Kirschner, W. Mayr-Schmölzer, J. Bernardi, Robert Gaschl, S. Schwarz, C. Simson, G. Vonbun-Feldbauer, C. Eisenmenger-Sittner
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引用次数: 2

Abstract

We present a combined experimental and computational investigation of phase stability and mechanical properties in the Al-Cu-Mg-Zn quaternary system. Samples containing different relative compositions were prepared using magnetron sputtering and investigated by electron microscopic and X-ray based methods. To classify the technical relevance of the samples, the indentation hardness was measured.  The phase stability was studied computationally using a cluster expansion approach based on density functional theory (DFT) methods to allow for a comprehensive screening of the configuration space. Upon decreasing Cu concentration, a transition from an fcc to a mixed fcc/bcc crystal system and significant changes in the mechanical properties depending on Valence Electron Concentration (VEC) and atomic size differences (δr) was observed experimentally. The corresponding crystallographic phases were assigned by XRD and the experimentally observed phase transition could be confirmed by computing formation energies for the corresponding  ground-state structures. Since to date, quaternary complex light metal alloy systems cannot be reliably predicted, this is an important step towards a priori modelling of this class of materials.
Al-Cu-Mg-Zn多主元素合金的实验和计算筛选表征
我们提出了Al-Cu-Mg-Zn四元体系相稳定性和力学性能的实验和计算相结合的研究。采用磁控溅射法制备了不同相对成分的样品,并用电镜和x射线对样品进行了研究。为了对样品的技术相关性进行分类,测量了压痕硬度。采用基于密度泛函理论(DFT)方法的聚类展开方法对相稳定性进行了计算研究,以便对构型空间进行全面筛选。当Cu浓度降低时,实验观察到从fcc到混合fcc/bcc晶体体系的转变,并观察到力学性能随价电子浓度(VEC)和原子尺寸差异(δr)的显著变化。通过XRD确定了相应的晶体相,并通过计算相应基态结构的形成能来证实实验观察到的相变。由于到目前为止,四元复杂轻金属合金系统还不能可靠地预测,这是向这类材料的先验建模迈出的重要一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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