摘要
Influence mechanism of B segregation on the microstructure evolution and hot ductility of S32654 at850-1250℃was systematically investigated through experimental research and theoretical calculation.The results demonstrated that the segregation of B at grain boundary(GB)played different roles in the microstructure evolution and hot ductility at various temperatures.At 850℃,B segregation inhibited Mo segregation at the GB and enhanced the GB cohesion.At 900-950℃,B segregation restricted the diffusion and segregation of Mo to the GB,inhibiting the precipitation ofσphase.At 1000-1050℃,B segregation accelerated the dislocation accumulation and limited the GB migration,promoting the nucleation and inhibiting the growth of DRX grains.At 1100-1150℃,B has little effect on the DRX due to sufficient energy supply by higher temperature.Under the above beneficial effects of B,the hot ductility of S32654 was improved to varying degrees at 850-1150℃.However,as the temperature increased to1200-1250℃,B segregation decreased the solidus temperature and enhanced the liquefaction cracking tendency,resulting in a deterioration of the hot ductility.
基金
financially supported by the National Natural Science Foundation of China(Grant Nos.U1860204,52004061)
the Talent Project of Revitalizing Liaoning(Grant No.XLYC1802101)
by China Postdoctoral Science Foundation(Grant Nos.2020M670777,2021T140100)
the Northeastern University Postdoctoral Funds(Grant No.20200321)
the Fundamental Research Funds for the Central Universities(Grant No.N2125017)
the Elite Program of Southern Taihu Lake
the instrumental and data analysis from Analytical and Testing Center,Northeastern University。
