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Creep-induced heterogeneous precipitation of Laves phase with two morphologies in tempered martensite ferritic steels

Bo Xiao, Haokai Dong, Tao Yang, Shaofei Liu, Shenbao Jin, Boxuan Cao, Yongdian Han, Lei Zhao, Xiawei Yang, Gang Sha, Lianyong Xu

2023Materials Research Letters10 citationsDOIOpen Access PDF

Abstract

We report two typical morphologies (elongated- and blocky-shaped) of the Laves phase in tempered martensite ferritic steels during creep process, originating from the two independent formation paths, i.e. along grain boundaries (GBs) and neighboring M23C6. This is attributed to the multi-element segregation (Cr, Mn, Si and W) at GBs and adjacent M23C6 that serves as suppliers of Laves phase formers. Furthermore, the subsequent different growth mechanisms play crucial roles in the two typical morphologies. Our findings improve the understanding of Laves phase heterogeneous precipitation and provide new insights for the innovation of novel heat-resistant steels with superior creep strength.

Topics & Concepts

Laves phaseCreepMaterials scienceMartensitePrecipitationMetallurgyGrain boundaryPhase (matter)MicrostructureIntermetallicAlloyMeteorologyChemistryOrganic chemistryPhysicsHigh Temperature Alloys and CreepMicrostructure and Mechanical Properties of SteelsIntermetallics and Advanced Alloy Properties
Creep-induced heterogeneous precipitation of Laves phase with two morphologies in tempered martensite ferritic steels | Litcius