Unraveling the ambient temperature magnetic cooling and critical behavior of FeCoNiCr0.63Gdx high entropy alloys

IF 3.2 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Solid State Chemistry Pub Date : 2025-05-03 DOI:10.1016/j.jssc.2025.125412

S. Induja, Kowsalya Murugan, Prince Wesley Vanaraj, Kathirvel Venugopal, Ravi Kirana, Jaivardhan Sinha

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Abstract

A detailed magnetocaloric and critical behavior analysis of FeCoNiCr_0.63Gd_x where, x = 0, 0.025 and 0.05 high entropy alloys (HEAs) featuring an in-depth analysis of magnetization data in the vicinity of the critical regime were studied. The critical behavior around the phase transition region is studied for both x = 0.025 and x = 0.05 compositions using various methods such as Modified Arrot plot (MAP), Kouvel-Fisher (KF) plot, and critical isotherm (CI) analysis. The positive slopes of the Arrot plots for both samples revealed that the magnetic phase transition is of second order type based on Banerjee's criterion. The critical exponents β, γ and δ estimated from the magnetic isotherms for x = 0.05 obeys the mean-field model indicating the presence of long-range spin interaction in the system. Meanwhile, the values for x = 0.025 lies within 3D-Heisenberg and Mean Field interaction models which shows the weakening of the long-range interactions and the existence of magnetic inhomogeneity within the system. Furthermore, the variation of effective critical exponents (β_eff and γ_eff) with temperature for x = 0.025 sample is reminiscent of disordered ferromagnetic system. It is rather significant that the scaling laws are satisfied suggesting the renormalization of interactions near T_C. A maximum entropy change of ΔS_m = 1.09 Jkg⁻¹K⁻¹ and 1.22 Jkg⁻¹K⁻¹ (x = 0.025 and 0.05) and a substantial relative cooling power (RCP) of 39.21 Jkg^-1 and 104.75 Jkg⁻¹ were observed for varying magnetic field of 70 kOe. Given the notable RCP and tuneable T_C near the ambient temperature, the as studied HEAs could be an eminent candidate for magnetic refrigeration applications.

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FeCoNiCr0.63Gdx高熵合金室温磁冷却及临界行为研究

对FeCoNiCr0.63Gdx （x = 0、0.025和0.05）的高熵合金（HEAs）进行了详细的磁热学和临界行为分析，并对临界区附近的磁化数据进行了深入分析。采用修正Arrot图（MAP）、Kouvel-Fisher图（KF）和临界等温线（CI）分析等方法，研究了x = 0.025和x = 0.05组分在相变区周围的临界行为。两个样品的Arrot图的正斜率表明，基于Banerjee准则的磁相变为二阶型。从x = 0.05的磁等温线估计的临界指数β、γ和δ服从平均场模型，表明系统中存在远程自旋相互作用。同时，x = 0.025的值在3D-Heisenberg和Mean Field相互作用模型范围内，表明系统内的远程相互作用减弱，存在磁不均匀性。此外，x = 0.025样品的有效临界指数（βeff和γeff）随温度的变化令人联想到无序铁磁系统。具有重要意义的是，这些标度律得到满足，这表明了在TC附近相互作用的重整化。当磁场强度为70 kOe时，最大熵变ΔSm = 1.09 Jkg- 1K -1和1.22 Jkg- 1K -1 (x = 0.025和0.05)，相对冷却功率（RCP）分别为39.21 Jkg-1和104.75 Jkg-1。考虑到显著的RCP和可调谐的温度，所研究的HEAs可能是磁制冷应用的杰出候选人。

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来源期刊

Journal of Solid State Chemistry 化学-无机化学与核化学

CiteScore

6.00

自引率

9.10%

发文量

848

审稿时长

25 days

期刊介绍： Covering major developments in the field of solid state chemistry and related areas such as ceramics and amorphous materials, the Journal of Solid State Chemistry features studies of chemical, structural, thermodynamic, electronic, magnetic, and optical properties and processes in solids.