Litcius/Paper detail

Effect of carbon addition on microstructure and mechanical properties of a typical hard-to-deform Ni-base superalloy

Lei Jia, Heng Cui, Shufeng Yang, Shaomin Lv, Xingfei Xie, Jinglong Qu

2023Progress in Natural Science Materials International25 citationsDOIOpen Access PDF

Abstract

In this paper, the as-cast microstructure, microsegregation, and mechanical properties of GH4151 superalloys with a carbon addition were studied by scanner electron microscopy (SEM), transmission electron microscope (TEM), electron probe microanalysis (EPMA), differential thermal analyzer (DSC), and electron backscattered diffraction (EBSD). The results show that the solid solution effect of carbon in alloys is limited, the addition of C from 0.01 to 0.08 ​wt% significantly refines the secondary dendrite spacing(SDAS) from 61.7 to 57.4 and 51.8 ​μm. Due to the influence of thermal solutal convection, the most severe segregation is found in the C-0.04 alloy, and the solidification ranges of C-0.01, C-0.04, and C-0.08 alloys are 87 ​°C, 96 ​°C, and 83 ​°C, respectively. Owing to the reduced solidification pores and formed finely dispersed carbides, C-0.04 shows excellent ultimate tensile strength (442 ​MPa) and superior total elongation (1.368%) at 1100 ​°C much better than that of C-0.01(130.7 ​MPa, 0.085%) and C-0.08(248 ​MPa, 1.026%).

Topics & Concepts

Materials scienceMicrostructureSuperalloyScanning electron microscopeCarbideElectron microprobeUltimate tensile strengthElectron backscatter diffractionAlloyTransmission electron microscopyMetallurgyOptical microscopeComposite materialElongationNanotechnologyHigh Temperature Alloys and CreepHigh-Temperature Coating BehaviorsAdvanced Materials Characterization Techniques