Analysis of the temperature-dependent plastic deformation of single crystals of quinary, quaternary and ternary equiatomic high- and medium-entropy alloys of the Cr-Mn-Fe-Co-Ni system
Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs)...
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| Published in | Science and technology of advanced materials Vol. 25; no. 1; p. 2376524 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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United States
Taylor & Francis Ltd
01.12.2024
Taylor & Francis Taylor & Francis Group |
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| Abstract | Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs) increase with decreasing temperature below room temperature. There is also a dulling of the temperature dependence of CRSS below 77 K due to dislocation inertial effects that we attribute to a decrease in the phonon drag coefficient. These behaviors were compared with those of previously investigated single crystals of the equiatomic Cr-Co-Ni and Cr-Fe-Co-Ni MEAs, and the equiatomic Cr-Mn-Fe-Co-Ni high-entropy alloy (HEA). The temperature dependence of CRSS and the apparent activation volumes below room temperature can be well described by conventional thermal activation theories of face-centered cubic (FCC) alloys. Above 673 K, there is a small increase in CRSS, which we believe is due to elastic interactions between solutes and mobile dislocations, the so-called Portevin-Le Chatelier (PL) effect. The CRSS at 0 K was obtained by extrapolation of fitted CRSS vs. temperature curves and compared with predictions from solid solution strengthening models of HEA and MEAs. |
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| AbstractList | Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs) increase with decreasing temperature below room temperature. There is also a dulling of the temperature dependence of CRSS below 77 K due to dislocation inertial effects that we attribute to a decrease in the phonon drag coefficient. These behaviors were compared with those of previously investigated single crystals of the equiatomic Cr-Co-Ni and Cr-Fe-Co-Ni MEAs, and the equiatomic Cr-Mn-Fe-Co-Ni high-entropy alloy (HEA). The temperature dependence of CRSS and the apparent activation volumes below room temperature can be well described by conventional thermal activation theories of face-centered cubic (FCC) alloys. Above 673 K, there is a small increase in CRSS, which we believe is due to elastic interactions between solutes and mobile dislocations, the so-called Portevin-Le Chatelier (PL) effect. The CRSS at 0 K was obtained by extrapolation of fitted CRSS vs. temperature curves and compared with predictions from solid solution strengthening models of HEA and MEAs.
The novelty of our work entitled ‘
Analysis of the temperature-dependent plastic deformation of single crystals of quinary, quaternary and ternary equiatomic high- and medium-entropy alloys of the Cr-Mn-Fe-Co-Ni system
’ can be summarized as follows:
The temperature dependences of CRSS were experimentally deduced from bulk single crystals of the six MEAs for the first time, so that fair comparison among the FCC HEA/MEAs is made. Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs) increase with decreasing temperature below room temperature. There is also a dulling of the temperature dependence of CRSS below 77 K due to dislocation inertial effects that we attribute to a decrease in the phonon drag coefficient. These behaviors were compared with those of previously investigated single crystals of the equiatomic Cr-Co-Ni and Cr-Fe-Co-Ni MEAs, and the equiatomic Cr-Mn-Fe-Co-Ni high-entropy alloy (HEA). The temperature dependence of CRSS and the apparent activation volumes below room temperature can be well described by conventional thermal activation theories of face-centered cubic (FCC) alloys. Above 673 K, there is a small increase in CRSS, which we believe is due to elastic interactions between solutes and mobile dislocations, the so-called Portevin-Le Chatelier (PL) effect. The CRSS at 0 K was obtained by extrapolation of fitted CRSS vs. temperature curves and compared with predictions from solid solution strengthening models of HEA and MEAs. Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs) increase with decreasing temperature below room temperature. There is also a dulling of the temperature dependence of CRSS below 77 K due to dislocation inertial effects that we attribute to a decrease in the phonon drag coefficient. These behaviors were compared with those of previously investigated single crystals of the equiatomic Cr-Co-Ni and Cr-Fe-Co-Ni MEAs, and the equiatomic Cr-Mn-Fe-Co-Ni high-entropy alloy (HEA). The temperature dependence of CRSS and the apparent activation volumes below room temperature can be well described by conventional thermal activation theories of face-centered cubic (FCC) alloys. Above 673 K, there is a small increase in CRSS, which we believe is due to elastic interactions between solutes and mobile dislocations, the so-called Portevin-Le Chatelier (PL) effect. The CRSS at 0 K was obtained by extrapolation of fitted CRSS vs. temperature curves and compared with predictions from solid solution strengthening models of HEA and MEAs.Temperature-dependent plastic deformation behaviors of single crystals of quaternary and ternary equiatomic medium-entropy alloys (MEAs) belonging to the Cr-Mn-Fe-Co-Ni system were investigated in compression at temperatures in the range 9 K to 1373 K. Their critical resolved shear stresses (CRSSs) increase with decreasing temperature below room temperature. There is also a dulling of the temperature dependence of CRSS below 77 K due to dislocation inertial effects that we attribute to a decrease in the phonon drag coefficient. These behaviors were compared with those of previously investigated single crystals of the equiatomic Cr-Co-Ni and Cr-Fe-Co-Ni MEAs, and the equiatomic Cr-Mn-Fe-Co-Ni high-entropy alloy (HEA). The temperature dependence of CRSS and the apparent activation volumes below room temperature can be well described by conventional thermal activation theories of face-centered cubic (FCC) alloys. Above 673 K, there is a small increase in CRSS, which we believe is due to elastic interactions between solutes and mobile dislocations, the so-called Portevin-Le Chatelier (PL) effect. The CRSS at 0 K was obtained by extrapolation of fitted CRSS vs. temperature curves and compared with predictions from solid solution strengthening models of HEA and MEAs. |
| Author | Chen, Zhenghao Yuge, Koretaka Li, Le Chiba, Ryosuke Inui, Haruyuki George, Easo P. Tei, Seiko Matsuo, Yusuke |
| Author_xml | – sequence: 1 givenname: Le orcidid: 0000-0003-3066-4177 surname: Li fullname: Li, Le organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 2 givenname: Zhenghao surname: Chen fullname: Chen, Zhenghao organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 3 givenname: Seiko surname: Tei fullname: Tei, Seiko organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 4 givenname: Yusuke surname: Matsuo fullname: Matsuo, Yusuke organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 5 givenname: Ryosuke surname: Chiba fullname: Chiba, Ryosuke organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 6 givenname: Koretaka surname: Yuge fullname: Yuge, Koretaka organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 7 givenname: Haruyuki surname: Inui fullname: Inui, Haruyuki organization: Department of Materials Science and Engineering, Kyoto University, Sakyo-ku, Kyoto, Japan – sequence: 8 givenname: Easo P. surname: George fullname: George, Easo P. organization: Materials Science and Engineering Department, University of Tennessee, Knoxville, TN, USA, Institute for Materials, Ruhr University Bochum, Bochum, Germany |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/39108607$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_ijplas_2025_104257 crossref_primary_10_1016_j_jallcom_2025_178559 crossref_primary_10_1016_j_scriptamat_2024_116430 |
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| Keywords | critical resolved shear stress High-entropy alloys thermal activation single crystals mean-square atomic displacement |
| Language | English |
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| SubjectTerms | Chromium Cobalt critical resolved shear stress Crystal dislocations Deformation analysis Dislocation mobility Drag coefficients Engineering and Structural materials Entropy Entropy of activation Face centered cubic lattice High entropy alloys Iron Manganese mean-square atomic displacement Medium entropy alloys Nickel Phonon drag Plastic deformation Room temperature Shear stress Single crystals Solid solutions Solution strengthening Temperature Temperature dependence thermal activation |
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| Title | Analysis of the temperature-dependent plastic deformation of single crystals of quinary, quaternary and ternary equiatomic high- and medium-entropy alloys of the Cr-Mn-Fe-Co-Ni system |
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