Electrical Resistivity of the Ni45Mn46In9 Alloy

N. V. Volkova; Волкова Н. В.; V. V. Chistyakov; Чистяков В. В.; E. I. Patrakov; Патраков Е. И.; S. M. Emelyanova; Емельянова С. М.

doi:10.31857/S0040364423020205

Electrical Resistivity of the Ni45Mn46In9 Alloy

Authors: Volkova N.V.¹, Chistyakov V.V.¹, Patrakov E.I.¹, Emelyanova S.M.¹
Affiliations:
1. Mikheev Institute of Metal Physics, Ural Branch, Russian Academy of Sciences
Issue: Vol 61, No 2 (2023)
Pages: 193-197
Section: Thermophysical Properties of Materials
URL: https://journals.rcsi.science/0040-3644/article/view/138686
DOI: https://doi.org/10.31857/S0040364423020205
ID: 138686

Cite item

Full Text

Open Access
Restricted Access

Access granted
Restricted Access

Subscription Access

Abstract
About the authors
References
Supplementary files
Statistics

Abstract

The structure and electrical resistance of the alloy Ni45Mn46In9 were studied. At room temperature, Ni45Mn46In9 is ordered into the cubic structure L21, characteristic of Heusler alloys. Throughout the entire temperature range from 77 to 1100 K, a large specific resistance and negative temperature coefficient of resistance are observed. Conductivity obeys Mott’s law T–1/4 with the addition of a metal contribution. The specific features observed in the temperature dependence of the electrical resistance curve suggest that in this alloy the phase transition between the cubic austenitic phase and martensitic phase with lower symmetry, characteristic of ferromagnetic nonstoichiometric Heusler alloys, occurs at an unusually high temperature.

References

Sutou Y., Imano Y., Koeda N., Omori T., Kainuma R., Ishida K., Oikawa K. Magnetic and Martensitic Transformations of NiMnX (X = In, Sn, Sb) Ferromagnetic Shape Memory Alloys // Appl. Phys. Lett. 2004. V. 85. P. 4358.
Emelyanova S.M., Marchenkov V.V., Belozerova K.A., Patrakov E.I., Wang R.L., Xiao H.B., Yang C.P., Weber H.W., Sauerzopf F., Kaletina Yu.V. Structure, Electrical and Magnetic Properties of Ni47–xMn42+xIn11 (x = 0, 1, 2) Based Heusler Alloys // Solid State Phenomena. 2015. V. 233–234. P. 233.
Acet M., Mañosa L., Planes A. Magnetic-Field-Induced Effects in Martensitic Heusler-Based Magnetic Shape Memory Alloys // Handb. Magn. Mater. 2011. V. 19. P. 231.
Грунин А.И., Лятун И.И., Ершов П.А., Родионова В.В., Гойхман А.Ю. Оптимизация технологий формирования тонких пленок сплава Гейслера Ni–Mn–In методом импульсного лазерного осаждения // Вестн. БФУ. 2014. № 4. С. 18.
Калетина Ю.В., Грешнова Е.Д., Калетин А.Ю., Фролова Н.Ю., Пилюгин В.П. Структура и свойства сплава Ni47Mi42In11 после интенсивной пластической деформации // ФММ. 2019. Т. 120. № 2. С. 183.
Грушевский К.И., Упоров С.А., Сидоров В.Е., Прекул А.Ф. Магнитная восприимчивость, электросопротивление и плотность сплава Al62Cu25.5Fe12.5 при высоких температурах // ТВТ. 2010. Т. 48. № 3. С. 356.
Прекул А.Ф., Щеголихина Н.И. О модифицированном законе (Т–1/4) Мотта в проводимости квазикристаллов // ФММ. 2021. Т. 122. № 11. С. 1119.
Кокорин В.В., Коледов В.В., Шавров В.Г., Коноплюк С.М., Трояновский Д.А., Маширов А.В., Алиев А.М. Фазовый наклеп в ферромагнитном сплаве с памятью формы Ni–Mn–In // Металлофиз. новейшие технол. 2013. Т. 35. № 9. С. 1295.
Tan C.L., Huang Y.W., Tian X.H., Jiang J.X., Cai W. Or-igin of Magnetic Properties and Martensitic Transformation of Ni–Mn–In Magnetic Shape Memory Alloys // Appl. Phys. Lett. 2012. V. 100. P. 132402.
Baia J., Liua D., Guc J., Shia Sh., Lianga X., Yana H., Zhang Yu., Esling C., Zhao X., Zuo L. First-principle Investigations of Martensitic Transformation and Magnetic Properties in Ni24Mn17−xIn7Cux (x = 0–5) Alloys // JMMM. 2020. V. 516. P. 167363.
Zagrebin M.A., Sokolovskiy V.V., Buchelnikov V.D. Investigation of Magnetic Properties of Ni–Mn–Ga Heusler Alloys with the Help of ab initio Calculations // Вестн. Челяб. гос. ун-та. 2011. № 38(253). С. 22.
Singh V., Roekeghem A., Panda S.K., Majumdar S., Mingo N., Dasgupta I. Magnetic Order and Lattice Instabilities in Ni2Mn1+xSn1−x Heusler based Magnetic Shape-Memory Alloys // arXiv:1811.04221 [cond-mat.str-el]
Krenke T., Acet M., Wassermann E.F. Ferromagnetism in the Austenitic and Martensitic States of Ni‒Mn‒In Alloys // Phys. Rev. B. 2006. V. 73. P. 174413.
Pathak A.K., Khan M., Dubenko I., Stadler S., Ali N. Large Magnetic Entropy Change in Ni50Mn50−xInx Heusler Alloys // Appl. Phys. Lett. 2007. V. 90. № 26. P. 262504.