Effects of thermal aging on the microstructure of Type-II boundaries in dissimilar metal weld joints

In order to investigate the effects of long-term thermal aging on the microstructural evolution of Type-II boundary regions in the weld metal of Alloy 152, a representative dissimilar metal weld was fabricated from Alloy 690, Alloy 152, and A533 Gr.B. This mock-up was thermally aged at 450°C to acce...

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Bibliographic Details
Published in:Journal of nuclear materials 2015-04, Vol.459, p.5-12
Main Authors: Yoo, Seung Chang, Choi, Kyoung Joon, Bahn, Chi Bum, Kim, Si Hoon, Kim, Ju Young, Kim, Ji Hyun
Format: Article
Language:English
Subjects:
Aging (metallurgy)
Boundaries
Chromium
Dissimilar metals
Grain boundaries
Hardness
High strength steels
Microstructure
Nickel base alloys
Nickel chromium molybdenum steels
Nickel molybdenum steels
Superalloys
Welded joints
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Summary:In order to investigate the effects of long-term thermal aging on the microstructural evolution of Type-II boundary regions in the weld metal of Alloy 152, a representative dissimilar metal weld was fabricated from Alloy 690, Alloy 152, and A533 Gr.B. This mock-up was thermally aged at 450°C to accelerate the effects of thermal aging in a nuclear power plant operation condition (320°C). The microstructure of the Type-II boundary region of the weld root, which is parallel to and within 100μm of the fusion boundary and known to be more susceptible to material degradation, was then characterized after different aging times using a scanning electron microscope equipped with an energy dispersive X-ray spectroscope for micro-compositional analysis, electron backscattered diffraction detector for grain and grain boundary orientation analysis, and a nanoindenter for measurement of mechanical properties. Through this, it was found that a steep compositional gradient and high grain average misorientation is created in the narrow zone between the Type-II and fusion boundaries, while the concentration of chromium and number of low-angle grain boundaries increases with aging time. A high average hardness was also observed in the same region of the dissimilar metal welds, with hardness peaking with thermal aging simulating an operational time of 15years.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2015.01.009