单晶高温合金中次生碳化物组成的数学预测

O. Glotka, V.I. Olshanetskii
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引用次数: 1

摘要

目的:使用计算的CALPHAD(被动实验)与扫描电子显微镜(主动实验)预测Ni-11.5Cr-5Co-3.6Al-4.5Ti-7W-0.8Mo-0.06C型单晶多组分系统的合金元素在二次碳化物之间的分布特征、它们的拓扑结构和形态,以及组分。设计/方法/方法:这项工作介绍了化学元素在碳化物组成中的分布研究结果,这取决于它们在系统中的含量。这些研究是使用电子显微镜进行的,并对图像和化学成分进行了计算机分析。研究结果:发现合金元素对碳化物组成的影响是复杂的,并用复杂的相关性来描述,这与所获得的实验结果很好地相关。研究局限性/影响:一个基本问题是在没有或只有最少实验次数的情况下预测高温合金的结构和性能。实际意义:获得的相关性既可用于设计新的高温合金,也可用于改善工业合金的成分。原创性/价值:本工作的价值在于,获得了合金元素对Ni-11.5Cr-5Co-3.6Al-4.5Ti-7W-0.8Mo-0.06C系高温合金中二次碳化物的溶解(沉淀)温度和元素分布的影响。研究发现,温度依赖于元素含量的曲线的变化与系统中发生的热力学过程密切相关,即,随着碳化物化学计量的变化或新相的沉淀,曲线呈现极值。
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Mathematical forecasting composition of secondary carbides in the single-crystal superalloys
Purpose: Predicting the specifics of the distribution of alloying elements between secondary carbides, their topology, and morphology, as well as the composition for a single-crystal multicomponent system of the type Ni-11.5Cr-5Co-3.6Al-4.5Ti-7W-0.8Mo-0.06C using the calculated CALPHAD (passive experiment) versus scanning electron microscopy (active experiment). Design/methodology/approach: This work presents the results of studies of the distribution of chemical elements in the composition of carbides, depending on their content in the system. The studies were carried out using an electron microscope with computer analysis of images and chemical composition. Findings: It was found that the influence of alloying elements on the composition of carbides is complex and is described by complex dependencies that correlate well with the obtained experimental results. Research limitations/implications: An essential problem is the prediction of the structure and properties of superalloys without or with a minimum number of experiments. Practical implications: The obtained dependencies can be used both for designing new superalloys and for improving the compositions of industrial alloys. Originality/value: The value of this work is that the obtained dependences of the influence of alloying elements on the dissolution (precipitation) temperatures and the distribution of elements in secondary carbides in the superalloy of the Ni-11.5Cr-5Co-3.6Al-4.5Ti-7W-0.8Mo-0.06C system. It was found that changes in the course of the curves of temperature dependence on the element content closely correlate with thermodynamic processes occurring in the system, that is, the curves exhibit extrema accompanying the change in the stoichiometry of carbides or the precipitation of new phases.
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来源期刊
Archives of materials science and engineering
Archives of materials science and engineering Materials Science-Materials Science (all)
CiteScore
2.90
自引率
0.00%
发文量
15
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