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引用次数: 0
摘要
本研究通过第一性原理计算研究了 Ni-Re 和 Co-Re 体系中固溶体的混合焓和磁矩。同时,利用平衡合金和扩散偶,研究了二元 Ni-Re、Co-Re 和三元 Ni-Co-Re 合金的相平衡。使用 CALPHAD 方法,利用本研究以及文献中的各类数据对三元镍-钴-铼和亚二元体系进行了热力学评估。根据现有的热力学参数,重新评估了镍-铼和钴-铼体系中 fcc 相的原子迁移率,以重现文献中的实验数据。此外,还组装了几个三元镍-钴-铼扩散对,并在 1273 K 和 1473 K 下进行退火,以推断相互扩散系数。根据本研究和文献中的扩散实验数据,结合目前的热力学描述,对 fcc Ni-Co-Re 体系中 Ni、Co 和 Re 的原子迁移率进行了评估。通过与实验中的相互扩散系数、成分剖面和扩散路径进行比较,证实了所评估的原子迁移率的准确性。
Thermodynamic assessment of the Ni–Co-Re system and diffusion study of its fcc phase
In the present work, the first-principles calculations were performed to study the enthalpies of mixing and the magnetic moments of the solid solutions in the Ni–Re and Co–Re systems. Meanwhile, the phase equilibria of the binary Ni–Re, Co–Re and ternary Ni–Co-Re alloys were investigated using equilibrated alloys and diffusion couples. Various types of data from the present work as well as the literature were used to perform a thermodynamic assessment of the ternary Ni–Co-Re and sub-binary systems using the CALPHAD method. Based on the present thermodynamic parameters, the atomic mobilities for the fcc phase in the Ni–Re and Co–Re systems were reassessed to reproduce experimental data in the literature. Furthermore, several ternary Ni–Co-Re diffusion couples were assembled and annealed at 1273 K and 1473 K to deduce the interdiffusion coefficients. On the basis of diffusion experimental data from the present work and the literature, atomic mobilities of Ni, Co, and Re in the fcc Ni–Co-Re system were assessed coupled with the present thermodynamic description. The accuracy of the assessed atomic mobilities was confirmed by comparing with the experimental interdiffusion coefficients, composition profiles and diffusion paths.
期刊介绍:
The design of industrial processes requires reliable thermodynamic data. CALPHAD (Computer Coupling of Phase Diagrams and Thermochemistry) aims to promote computational thermodynamics through development of models to represent thermodynamic properties for various phases which permit prediction of properties of multicomponent systems from those of binary and ternary subsystems, critical assessment of data and their incorporation into self-consistent databases, development of software to optimize and derive thermodynamic parameters and the development and use of databanks for calculations to improve understanding of various industrial and technological processes. This work is disseminated through the CALPHAD journal and its annual conference.
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