Thermo-elastic properties of bcc Mn-rich high-entropy alloy

We report a chemically disordered solid solution, Al0.6Cr0.2MnFe0.5Co0.3Ni0.5, based on a body-centered cubic underlying lattice with the measured Curie temperature of ∼380 K. First-principles alloy theory is employed to investigate the temperature-dependent free energy, elastic constants, and coeff...

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Published inApplied physics letters Vol. 117; no. 16
Main Authors Huang, Shuo, Dong, Zhihua, Mu, Wangzhong, Ström, Valter, Chai, Guocai, Vitos, Levente
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 19.10.2020
Subjects
Applied physics
Body centered cubic lattice
Curie temperature
elastic behavior
Elastic properties
Ferromagnetism
First principles
Free energy
High entropy alloys
Magnetic properties
Magnetic transition
Mechanical analysis
Solid solutions
Temperature dependence
Thermal expansion
Thermoelastic properties
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Abstract We report a chemically disordered solid solution, Al0.6Cr0.2MnFe0.5Co0.3Ni0.5, based on a body-centered cubic underlying lattice with the measured Curie temperature of ∼380 K. First-principles alloy theory is employed to investigate the temperature-dependent free energy, elastic constants, and coefficient of thermal expansion at the ferromagnetic and paramagnetic states. Theory and experiment are found to strengthen each other, and the results indicate that the magnetic state has a strong impact on the thermo-elastic properties of the considered alloy. The present advance in the thermo-magneto-elasticity enhances the understanding required for controlling the magnetic and mechanical response of multi-component systems.
AbstractList We report a chemically disordered solid solution, Al 0.6 Cr 0.2 MnFe 0.5 Co 0.3 Ni 0.5 , based on a body-centered cubic underlying lattice with the measured Curie temperature of ∼380 K. First-principles alloy theory is employed to investigate the temperature-dependent free energy, elastic constants, and coefficient of thermal expansion at the ferromagnetic and paramagnetic states. Theory and experiment are found to strengthen each other, and the results indicate that the magnetic state has a strong impact on the thermo-elastic properties of the considered alloy. The present advance in the thermo-magneto-elasticity enhances the understanding required for controlling the magnetic and mechanical response of multi-component systems.
We report a chemically disordered solid solution, Al0.6Cr0.2MnFe0.5Co0.3Ni0.5, based on a body-centered cubic underlying lattice with the measured Curie temperature of ∼380 K. First-principles alloy theory is employed to investigate the temperature-dependent free energy, elastic constants, and coefficient of thermal expansion at the ferromagnetic and paramagnetic states. Theory and experiment are found to strengthen each other, and the results indicate that the magnetic state has a strong impact on the thermo-elastic properties of the considered alloy. The present advance in the thermo-magneto-elasticity enhances the understanding required for controlling the magnetic and mechanical response of multi-component systems.
We report a chemically disordered solid solution, Al0.6Cr0.2MnFe0.5Co0.3Ni0.5, based on a body-centered cubic underlying lattice with the measured Curie temperature of similar to 380K. First-principles alloy theory is employed to investigate the temperature-dependent free energy, elastic constants, and coefficient of thermal expansion at the ferromagnetic and paramagnetic states. Theory and experiment are found to strengthen each other, and the results indicate that the magnetic state has a strong impact on the thermo-elastic properties of the considered alloy. The present advance in the thermo-magneto-elasticity enhances the understanding required for controlling the magnetic and mechanical response of multi-component systems. Published under license by AIP Publishing. https://doi.org/10.1063/5.0017989
Author Ström, Valter
Vitos, Levente
Mu, Wangzhong
Huang, Shuo
Dong, Zhihua
Chai, Guocai
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Snippet We report a chemically disordered solid solution, Al0.6Cr0.2MnFe0.5Co0.3Ni0.5, based on a body-centered cubic underlying lattice with the measured Curie...
We report a chemically disordered solid solution, Al 0.6 Cr 0.2 MnFe 0.5 Co 0.3 Ni 0.5 , based on a body-centered cubic underlying lattice with the measured...
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SubjectTerms Applied physics
Body centered cubic lattice
Curie temperature
elastic behavior
Elastic properties
Ferromagnetism
First principles
Free energy
High entropy alloys
Magnetic properties
Magnetic transition
Mechanical analysis
Solid solutions
Temperature dependence
Thermal expansion
Thermoelastic properties
Title Thermo-elastic properties of bcc Mn-rich high-entropy alloy
URI http://dx.doi.org/10.1063/5.0017989
https://www.proquest.com/docview/2452218732
https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-286634
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Volume 117
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