期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2015.10.071
关键词
High entropy alloys; Nb25Sc25Ti25Zr25 alloy; Microstructure; TEM; Eutectic composition
类别
资金
- Polish science financial resources The National Science Centre, Poland [UMO-2014/15/D/ST8/02638]
The novel quaternary Nb25Sc25Ti25Zr25 (at.%) high entropy alloy with dual-phase structure was developed and cast by arc melting of elemental precursors. The as-cast state comprised of lamellar eutectics with alternating alpha(Sc, Zr) with HCP lattice plates having thickness of 30-50 nm, length up to 600 nm and inter-lamellar spacing of 5-40 nm, embedded in the beta-NbZrTi matrix with BCC structure. While the alpha(Sc, Zr) plates showed reduced content of Nb, the beta-NbZrTi matrix was particularly depleted in Sc. The unique mixture of fine hexagonal alpha(Sc, Zr) plates within the beta-NbTiZr matrix in as-cast state led to relatively high combination of strength and ductility: the alloy with initial hardness of 418 HV reached compressive strength of 1250 MPa, yield strength of 1020 MPa and compressibility of 8.2%. The phase composition exhibited high stability with no significant changes taking place after annealing at 1000 degrees C for 24 h. The high-temperature exposure caused only coarsening of alpha(Sc, Zr) hexagonal plates, which reached 3 mu m in width and 5-10 mu m in length. The plastic strain of the annealed alloy with hardness of 202 HV increased to 20% while compression strength decreased to 670 MPa. As opposed to the as-cast state, the annealed alloy exhibited limited strain hardening during room-temperature compression. Crown Copyright (C) 2015 Published by Elsevier B.V. All rights reserved.
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