摘要
Microindentation creep tests on an electrodeposited extremely fine(4.9 nm) nanograined(ng) Ni-14.2 at.% Mo(Ni-14.2 Mo) at both room temperature(RT) and liquid nitrogen temperature(LNT) demonstrated that lowering temperature retarded softening in the ng Ni-Mo alloy. The obtained strain rate sensitivity at LNT was one order of magnitude lower than that at RT. Microstructural characterization revealed that mechanically-driven grain boundary(GB) migration was greatly suppressed by lowering temperature,which might be ascribed to the presence of solute Mo atoms that significantly retarded coupled GB motion at LNT. Deformation was instead carried by shear bands.
基金
financially supported by the Ministry of Science & Technology of China (No. 2017YFA0204401)
the National Natural Science Foundation of China (Nos. ZDYZD201701, 51961012 and 51801064)
the Jiangxi Outstanding Young Talents Funding Program (No. 20192BCB23014)
the Liaoning Revitalization Talents Program (No. XLYC1808008)
the Shenyang National Laboratory for Materials Science (No. 2016RP05)。
