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Direct observation of phase transformations in the simulated heat-affected zone of a 9Cr martensitic steel...

by Peter Mayr, T. Palmer, J. Elmer, Eliot D Specht
Publication Type
Journal
Journal Name
International Journal of Materials Research / Zeitschrift fur Metallkunde
Publication Date
Page Numbers
381 to 386
Volume
99
Issue
4

An experimental test melt of a boron alloyed 9Cr-3W-3Co-V,Nb steel for high temperature applications in the thermal power generation industry was produced by vacuum induction melting. This grade of steel typically displays a homogeneous tempered martensitic microstructure in the as-received condition. However, after welding, this microstructure is significantly altered, resulting in a loss of its desired properties. The phase transformations during simulated thermal cycles typical of those experienced in the weld heat-affected zone (HAZ) were directly observed by in situ X-ray diffraction experiments using synchrotron radiation. Heating rates of 10 �C s-1 and 100 �C s-1 up to a peak temperature of 1300�C are investigated here. The final microstructures observed after both simulated weld thermal cycles are primarily composed of martensite with approximately 4% retained delta ferrite and 4% retained austenite, by volume. With the temporal resolution of the in situ X-ray diffraction technique, phase transformations from tempered martensite to austenite to delta ferrite during heating and to martensite during cooling were monitored. With this technique, the evolution of the final microstructure through both heating and cooling is monitored, providing additional context to the microstructural observations.