Microstructure and local mechanical properties of a dissimilar metal welded joint with buttering layer in steam turbine rotor

A novel dissimilar metal welded joint (DMWJ) is demonstrated in a steam turbine rotor application. The integrity of the joint is investigated using the stratified tensile method for the first time and its local tensile mechanical properties are evaluated. The effect of the amount of Cr and Mo, post...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2019-02, Vol.747, p.244-254
Main Authors: Wang, W.K., Liu, Y., Zhang, Q.B., Zhang, L.J., Zhang, J.X.
Format: Article
Language:English
Subjects:
Bainite
Chromium
Dissimilar metal welded joint
Dissimilar metals
Heat affected zone
Heat transmission
Heat treating
Integrity
Integrity assessment
Local mechanical properties
Martensite
Mechanical properties
Microhardness
Microscopy
Microstructure
Migration
Molybdenum
Optical microscopy
Optical properties
Post-weld heat treatment
Scanning electron microscopy
Steam turbine rotor
Steam turbines
Stratified tensile methods
Tensile tests
Transmission electron microscopy
Welded joints
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Summary:A novel dissimilar metal welded joint (DMWJ) is demonstrated in a steam turbine rotor application. The integrity of the joint is investigated using the stratified tensile method for the first time and its local tensile mechanical properties are evaluated. The effect of the amount of Cr and Mo, post weld heat treatment, welding heat flow and carbon migration on the microstructure and local mechanical properties of the DMWJ is analyzed by optical microscopy (OM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), micro-hardness and stratified tensile tests. The results indicate that local mechanical properties in three heat affected zones (HAZs) exhibit gradient distributions with a significant mismatch in the boundary regions. The yield strengths of three HAZs varied from 557 to 873, 640 to 700 and 753 to 1035 MPa, and the corresponding ultimate tensile strengths were 690–899, 732–826 and 866–1088 MPa, respectively. The second-phase carbides in base metals and weld regions were mainly M3C, M23C6 and M7C3. The difference of mechanical properties in weld regions is related to shape of bainite. Drastic changes and mismatch of local mechanical properties in boundary regions are mainly attributed to the shape and quantity of martensite and bainite. Local mechanical properties without size-effect could be obtained by the stretched tensile method, which provides an accurate assessment of the integrity of DMWJs.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2018.12.018