Publication detail
Influence of Ti on the Tensile Properties of the High-Strength Powder Metallurgy High Entropy Alloys
MORAVČÍK, I. GAMANOV, Š. MORAVČÍKOVA DE ALMEIDA GOUVÊA, L. KOVACOVA, Z. KITZMANTECH, M. NEUBAUER, E. DLOUHÝ, I.
English title
Influence of Ti on the Tensile Properties of the High-Strength Powder Metallurgy High Entropy Alloys
Type
journal article in Web of Science
Language
en
Original abstract
The focus of this study is the evaluation of the influence of Ti concentration on the tensile properties of powder metallurgy high entropy alloys. Three Ni1.5Co1.5CrFeTiX alloys with X = 0.3; 0.5 and 0.7 were produced by mechanical alloying and spark plasma sintering. Additional annealing heat treatment at 1100 °C was utilized to obtain homogenous single-phase face centered cubic (FCC) microstructures, with minor oxide inclusions. The results show that Ti increases the strength of the alloys by increasing the average atomic size misfit i.e., solid solution strengthening. An excellent combination of mechanical properties can be obtained by the proposed method. For instance, annealed Ni1,5Co1,5CrFeTi0.7 alloy possessed the ultimate tensile strength as high as ~1600 MPa at a tensile ductility of ~9%, despite the oxide contamination. The presented results may serve as a guideline for future alloy design of novel, inclusion-tolerant materials for sustainable metallurgy
English abstract
The focus of this study is the evaluation of the influence of Ti concentration on the tensile properties of powder metallurgy high entropy alloys. Three Ni1.5Co1.5CrFeTiX alloys with X = 0.3; 0.5 and 0.7 were produced by mechanical alloying and spark plasma sintering. Additional annealing heat treatment at 1100 °C was utilized to obtain homogenous single-phase face centered cubic (FCC) microstructures, with minor oxide inclusions. The results show that Ti increases the strength of the alloys by increasing the average atomic size misfit i.e., solid solution strengthening. An excellent combination of mechanical properties can be obtained by the proposed method. For instance, annealed Ni1,5Co1,5CrFeTi0.7 alloy possessed the ultimate tensile strength as high as ~1600 MPa at a tensile ductility of ~9%, despite the oxide contamination. The presented results may serve as a guideline for future alloy design of novel, inclusion-tolerant materials for sustainable metallurgy
Keywords in English
multi principal element alloy; tensile strength; fracture; ductility; powder
Released
26.01.2020
Publisher
MDPI
Location
Basel, Switzerland
ISSN
1996-1944
Volume
13
Number
3
Pages count
18
BIBTEX
@article{BUT161621,
author="Igor {Moravčík} and Štěpán {Gamanov} and Larissa {Moravčíková de Almeida Gouvea} and Zuzana {Kovacova} and Michael {Kitzmantech} and Erich {Neubauer} and Ivo {Dlouhý},
title="Influence of Ti on the Tensile Properties of the High-Strength Powder Metallurgy High Entropy Alloys",
year="2020",
volume="13",
number="3",
month="January",
publisher="MDPI",
address=" Basel, Switzerland",
issn="1996-1944"
}