Stray grains evolution and high-temperature stress rupture behavior of crystallographic lamellar microstructure in Ni-based superalloys prepared by laser powder bed fusion
Peng Wang Lei Shi Li-ming Lei Xiao-feng Sun Jin-guo Li Jing-jing Liang Yu-ping Zhu Wei Song Qiao-lei Li Yi Qiu Ying-ju Li Yi-zhou Zhou Han-lin Liao
中国铸造2026,Vol.23Issue(1):45-54,10.
中国铸造2026,Vol.23Issue(1):45-54,10.DOI:10.1007/s41230-025-5024-y
Stray grains evolution and high-temperature stress rupture behavior of crystallographic lamellar microstructure in Ni-based superalloys prepared by laser powder bed fusion
Stray grains evolution and high-temperature stress rupture behavior of crystallographic lamellar microstructure in Ni-based superalloys prepared by laser powder bed fusion
摘要
关键词
crystallographic lamellar microstructure/Ni-based superalloys/additive manufacturing/mechanical propertiesKey words
crystallographic lamellar microstructure/Ni-based superalloys/additive manufacturing/mechanical properties分类
矿业与冶金引用本文复制引用
Peng Wang,Lei Shi,Li-ming Lei,Xiao-feng Sun,Jin-guo Li,Jing-jing Liang,Yu-ping Zhu,Wei Song,Qiao-lei Li,Yi Qiu,Ying-ju Li,Yi-zhou Zhou,Han-lin Liao..Stray grains evolution and high-temperature stress rupture behavior of crystallographic lamellar microstructure in Ni-based superalloys prepared by laser powder bed fusion[J].中国铸造,2026,23(1):45-54,10.基金项目
The authors gratefully acknowledge the financial support by the Project of Taihang Laboratory(No.A3023)and Science Center for Gas Turbine Project(Grant No.P2022-C-IV-002-001). (No.A3023)
