陈宗宁

个人信息Personal Information

教授

博士生导师

硕士生导师

任职 : 大连理工大学宁波研究院

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:材料科学与工程学院

学科:材料加工工程

办公地点:大连理工大学主校区铸造中心401室
宁波市江北区育才路26号大连理工大学宁波研究院

电子邮箱:znchen@dlut.edu.cn

扫描关注

论文成果

当前位置: 中文主页 >> 科学研究 >> 论文成果

Correlative characterization on microstructure evolution of Ni-based K403 alloy during thermal exposure

点击次数:

论文类型:期刊论文

发表时间:2021-01-29

发表刊物:ACTA MATERIALIA

卷号:131

页面范围:169-186

ISSN号:1359-6454

关键字:K403 Ni based superalloy; Thermal exposure; Carbide; Topologically close-packed phase; HAADF-STEM; EELS

摘要:The microstructure evolution of the K403 Ni-based superalloy as a function of thermal exposure temperature and time was investigated using correlative characterization, including a combination of scanning electron microscopy, electron backscatter diffraction, transmission electron microscopy, high angle angular dark-field scanning transmission electron microscopy imaging and electron energy loss spectroscopy. The as-cast microstructure of the K403 alloy shows a typical dendritic structure and consists of a gamma solid solution, gamma' phase, (gamma + gamma') eutectic phase and a metal carbide (MC) phase. The solutes of Ni and Ti are enriched in the gamma solid solution, while, the solutes of Cr and Co are enriched in the gamma' phase. The morphology of the y' phase is nearly cubic. After thermal exposure at 800 degrees C or 950 degrees C for up to 200 h, the typical dendritic structure and a similar solute segregation behavior were still observed. However, the MC carbides were partially decomposed and further transformed to the M6C phase and M23C6 phase. Furthermore, the size of y' was increased from 302.88 +/- 20.49 nm to 374.75 +/- 29.76 nm (800 degrees C, 50 h) and 751.73 +/- 123.14 nm (950 degrees C, 50 h), respectively. The morphology of y' was changed from cubic to triangular or round. Clearly, there is a significant coarsening of y' during thermal exposure. A topologically close-packed (TCP) a phase was observed after thermal exposure at 800 degrees C for 100 h or 950 C for 50 h. More interestingly, an in-situ phase transformation of the a phase to other TCP phase (i.e. P phase) was also observed after thermal exposure at 950 degrees C for 50 h. The formation and transformation of carbide (i.e. M6C phase, M23C6 phase) and TCP phases (i.e. a phase, P phase) is proposed to be a diffusion-controlled process and can be attributed to the solute diffusion during thermal exposure. The present investigation provides a better understanding on the high temperature performance of the K403 Ni-based superalloy, which is essential to predict the failure and thereby enhance the reliability and service life of the K403 Ni-based superalloy. (C) 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.