[2] [2] PRIYANKA K, AMIT K G, RAJESH K M, et al. A comprehensive review: Recent progress on magnetic high entropy alloys and oxides[J]. Journal of Magnetism and Magnetic Materials, 2022, 554: 169142.

[3] [3] TSAI M H, YEH J W. High-entropy alloys: A critical review[J]. Materials Research Letters, 2014, 2(3): 107-123.

[4] [4] CAI Zh B, CUI X F, LIU Zh. Microstructure and wear resistance of laser cladded Ni-Cr-Co-Ti-V high-entropy alloy coating after laser remelting processing[J]. Optics and Laser Technology, 2018, 99: 276-281.

[5] [5] SHU F Y, LIU S, ZHAO H Y. Structure and high-temperature property of amorphous composite coating synthesized by laser cladding FeCrCoNiSiB high-entropy alloy powder[J]. Journal of Alloys and Compounds, 2018, 731: 662-666.

[6] [6] LI Sh, TOMIKO Y. High-temperature oxidation performance of laser-cladded amorphous TiNiSiCrCoAl high-entropy alloy coating on Ti-6Al-4V surface[J]. Surface & Coatings Technology, 2022, 433: 128123.

[7] [7] DENG Ch, WANG Ch, CHAI L J. Mechanical and chemical properties of CoCrFeNiMo0.2 high entropy alloy coating fabricated on Ti6Al4V by laser cladding[J]. Intermetallics, 2022, 144: 107504.

[8] [8] ARIF Z U, KHALID M Y, RASHID A A, et al. Laser deposition of high-entropy alloys: A comprehensive review[J]. Optics & Laser Technology, 2022, 145: 107447.

[9] [9] ZHANG M N, WANG D F, HE L J. Microstructure and elevated temperature wear behavior of laser-cladded AlCrFeMnNi high-entropy alloy coating[J]. Optics and Laser Technology, 2022, 149: 107845.

[10] [10] LIN Ch M, JUAN Ch Ch, CHANG Ch H. Effect of Al addition on mechanical properties and microstructure of refractory AlxHfNbTaTiZr alloys[J]. Journal of Alloys and Compounds, 2015, 624: 100-107.

[11] [11] HUANG T D, WU Sh Y, JIANG H. Effect of Ti content on microstructure and properties of TixZrVNb refractory high-entropy alloys[J]. International Journal of Minerals, 2020, 27(10): 1318-1325.

[12] [12] LI Zh T, JING C N, FENG Y. Microstructure evolution and properties of laser cladding Nb containing eutectic high entropy alloys[J]. International Journal of Refractory Metals and Hard Materials, 2023, 110: 105992.

[13] [13] ZHANG H, HE Y Z, PAN Y. Synthesis and characterization of FeCoNiCrCu high-entropy alloy coating by laser cladding[J]. Materials & Design, 2011, 32(4): 1910-1915.

[14] [14] ZHANG H, HE Y, PAN Y. Enhanced hardness and fracture toughness of the laser-solidified FeCoNiCrCuTiMoAlSiB0.5 high-entropy alloy by martensite strengthening[J]. Scripta Materialia, 2013, 69 (4): 342-345.

[15] [15] QIU X W, ZHANG Y P, HE L, et al. Microstructure and corrosion resistance of AlCrFeCuCo high entropy alloy[J]. Journal of Alloys and Compounds, 2013, 549 (5): 195-199.

[16] [16] YE X, MA M, LIU W, et al. Synthesis and characterization of high-entropy alloy AlxFeCoNiCuCr by laser cladding[J]. Advances in Materials Science and Engineering, 2011, 7: 485942.

[17] [17] HUANG C, ZHANG Y, VILAR R, et al. Dry sliding wear behavior of laser clad TiVCrAlSi high entropy alloy coatings on Ti-6Al-4V substrate[J]. Materials & Design, 2012, 41: 338-343.

[18] [18] DENG Ch, WANG Ch, CHAI L J. Mechanical and chemical properties of CoCrFeNiMo0.2 high entropy alloy coating fabricated on Ti6Al4V by laser cladding[J]. Intermetallics, 2022, 144: 107504.

[19] [19] ZHANG H X, DAI J J, SUN C X. Microstructure and wear resistance of TiAlNiSiV high-entropy laser cladding coating on Ti-6Al-4V[J]. Journal of Materials Processing Technology, 2020, 282: 116671.

[20] [20] YAO H W, LIU Y M, SUN X H, et al. Microstructure and mechanical properties of Ti3V2NbAlxNiy low-density refractory multielement alloys[J]. Intermetallics, 2021, 133: 107187.

[21] [21] GUO S, NG C, LU J, et al. Effect of valence electron concentration on stability of FCC or bcc phase in high entropy alloys[J]. Journal of Applied Physics, 2011, 109(10): 103505.

[22] [22] LI Zh T, JING C N, FENG Y, et al. Microstructure evolution and properties of laser cladding Nb containing eutectic high entropy alloys[J]. International Journal of Refractory Metals and Hard Materials, 2023, 110: 105992.