期刊
INTERNATIONAL JOURNAL OF REFRACTORY METALS & HARD MATERIALS
卷 114, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ijrmhm.2023.106243
关键词
Lightweight; High -entropy alloy; Microstructure; Mechanical properties; Deformation mechanisms
In recent years, significant efforts have been made to develop high-performance alloys, including high-entropy alloys, for engineering applications. In this study, a novel lightweight high-entropy alloy (HEA) was prepared and its microstructure, compressive properties, and deformation mechanisms were investigated. The results showed that the HEA has a low density, high strength, and good ductility at both room and elevated temperatures. The excellent mechanical properties of the HEA suggest its potential application in high-temperature structures.
In recent years, significant efforts have been made to develop high-performance alloys for engineering appli-cations, including high-entropy alloys with lightweight and high ductility at room temperature and high strength at high temperature. In this work, a novel lightweight (NiAl)55(FeCrMoV)45 high-entropy alloy (HEA) was prepared using vacuum arc-melting. Its microstructure, compressive properties and deformation mechanisms were investigated. The results showed that the HEA is composed of BCC and B2 phases and has a low density of only 6.72 g/cm3. Its compressive yield strength, specific yield strength and fracture strain at room temperature are 1739.5 MPa, 258.9 MPa center dot cm3/g and 24.9%, respectively; and its yield strength and specific yield strength at 1073 K and 1273 K are 950.7 MPa and 141.2 MPa center dot cm3/g, 421.8 MPa and 62.8 MPa center dot cm3/g, respectively, better than that of most HEAs, refractory HEAs (RHEAs) and conventional alloys reported previously. The plastic deformation of the HEA is governed by dislocation slip at both room and elevated temperatures. The high strength of the HEA can mainly be attributed to the addition of high melting point elements Mo and V. The excellent comprehensive mechanical properties of the HEA indicate its potential application prospects in high -temperature structures.
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