期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2017.04.111
关键词
High-entropy alloy; Precipitation-hardening; Work-hardening; Slip band
类别
资金
- National Natural Science Foundation of China [51271112]
Effect of coherent L1(2) nanoprecipitates on the tensile behavior of a novel-designed Al0.2CrFeCoNi2Cu0.2 high entropy alloy is investigated in this study. Different heat treatments after cold rolling were used to achieve the alloys with two different microstructures. One is composed of a fcc matrix and coherent L1(2) (Ni,Cu)(3)Al nanoprecipitates after annealing at 700 degrees C for 20 h; the other owns a fcc single-phase structure after annealing at 800 degrees C for 1 h as reference. Furthermore, the two alloys have nearly identical average grain sizes (similar to 4.5 mu m), and thus the exclusive effect of L1(2) nanoprecipitates could be identified by directly comparing their tensile behaviors. It is shown that the presence of L1(2) nanoprecipitates results in increases of 259 MPa and 316 MPa in the yield strength and ultimate tensile strength, respectively, accompanied by the maintenance of a high elongation (30.4%). This excellent strengthening effect is explained by the interaction between dislocations and L12 nanoprecipitates during the tensile straining process. Dislocation shearing of the L1(2) nanoprecipitates, which is evidently observed and also verified by the yield strength increment calculation, leads to predominant planar dislocation glide and the formation of crystallographically aligned slip bands as the main deformation mechanism, eventually resulting in a considerable work-hardening capacity enhancement with almost none harm to the elongation.
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