期刊
INTERMETALLICS
卷 148, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.intermet.2022.107637
关键词
High-entropy alloy; Mechanical properties; Microstructure; Titanium-alloying; Strength-ductility; Coordinated deformation
资金
- National Major Basic Research Project of China [613321]
- Open Project of Jiangsu Key Laboratory [BM2016023]
- Transformation Project of Scientific and Technological Achievements in Jiangsu Province [BA2020023]
The effect of titanium-alloying on the microstructure and mechanical properties of Fe35Ni35Cr20Mn10 high-entropy alloy (HEA) was studied. It was found that the addition of titanium resulted in improved yield strength and excellent ductility. The refinement of grains induced by titanium-alloying and the coordinated deformation between eta flakes and matrix were responsible for the excellent performance.
The effect of titanium-alloying on microstructure and mechanical properties of Fe35Ni35Cr20Mn10 high-entropy alloy (HEA) was studied. The microstructure was characterized by X-ray diffraction, scanning electron microscopy and transmission electron microscopy. The mechanical properties were examined by tensile and hardness tests. After the homogenization treatment at 1000 degrees C for 12 h, a great amount of thick/thin eta flakes are observed to form at the grain boundaries, regularly intersect-arraying with specific directions that form eta locks. It is found that both the thick and thin eta-Ni3Ti flakes are well coherent with face-centered cubic (FCC) matrix. Ti-alloying makes the homogenized Fe35Ni35Cr20Mn10 HEA possess high yield strength (331 MPa) and excellent ductility (47.2% in elongation), exhibiting a better strength-ductility. The remarkable rise in yield strength is from fine grain strengthening, dislocation hardening and second phase strengthening that are induced by Ti alloying. The refinement of grains induced by Ti alloying, the formation of a number of clear dislocation cells in FCC matrix and many stacking faults in FCC matrix and inside eta flakes during the tensile deformation, and especially the coordinated deformation between eta flakes and matrix, are thought to be responsible for the excellent ductility. The excellent strength-ductility in homogenized (Fe35Ni35Cr20Mn10)(95.3)Ti-4.7 HEA is, more importantly, due to the formation of regular intersect-arraying of eta flakes (eta-locks) with specific directions. The thick/thin eta flakes are all along keeping the coherent relationship with FCC matrix during the total tensile deformation and hence can coordinately deform with the matrix.
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