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09.08.2024

Synthesis and Study of Electromagnetic Wave Absorption Performance of Nano Medium-Entropy FeCoNi Magnetic Alloy Particles with Varying Ni Element Contents

verfasst von: Hong Li, Hongyang Li, Feng Yang, Qing Cai, Wenqi Xu, Ran Wang, Ying Liu

Erschienen in: Metals and Materials International

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Abstract

To investigate the influence of Ni element content on the absorptive properties of nano medium-entropy FeCoNi alloy particles, five groups of nano medium-entropy FeCoNi alloy particles was synthesized with varying Ni element contents by chemical liquid-phase reduction, and the microstructure characteristics, magnetic and absorptive properties were studied. The results show that the synthesized nano medium-entropy FeCoNi alloy particles have a spherical geometry and face-centered cubic crystal structure, with a slight increase in particle size as the Ni element content increases, averaging radius 100–200 nm. The alloy particles exhibit soft magnetic properties, with decreasing saturation magnetization intensity, coercivity, and residual magnetization as the Ni element content increases. The real and imaginary parts of the dielectric constant and complex magnetic permeability of the prepared FeCoNi alloy particles show an increasing followed by a decreasing trend with the increase of Ni element content, maximum values was with Ni element content of x = 0.8. As the electromagnetic frequency increases, the real part of the complex magnetic permeability of the alloy particles follows a decreasing trend, and the imaginary part of the magnetic permeability at a Ni element content of x = 0.8 is lower than that of the other alloy particles. The dielectric loss gradually increases with the rise of electromagnetic wave frequency, with polarization relaxation was the primary loss mechanism. At a Ni element content of x = 0.8, the alloy particle sample demonstrates the widest effective absorption bandwidth 4.48 GHz with sample thickness of 1.4 mm and the maximum reflection loss 44.2 dB with thickness of 1.6 mm. Similarly, with Ni element content of x = 1, the alloy particle sample exhibits the largest effective absorption bandwidth 5.36 GHz at thickness 1.6 mm and the maximum reflection loss 32.5 dB at thickness of 1.8 mm.

Graphical Abstract

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Literatur
1.
Zurück zum Zitat J.C. Lin, Wireless power transfer for mobile applications, and health effects [Telecommunications health and safety]. IEEE Antenn. Propag. M. 55, 250–253 (2013) J.C. Lin, Wireless power transfer for mobile applications, and health effects [Telecommunications health and safety]. IEEE Antenn. Propag. M. 55, 250–253 (2013)
2.
Zurück zum Zitat S. Wall, Z.M. Wang, M. Lipsett, Real-world cell phone radio frequency electromagnetic field exposures. Environ. Res. Apr. 171, 581–592 (2019)CrossRef S. Wall, Z.M. Wang, M. Lipsett, Real-world cell phone radio frequency electromagnetic field exposures. Environ. Res. Apr. 171, 581–592 (2019)CrossRef
3.
Zurück zum Zitat C. Augner, T. Gnambs, R. Winker, A. Barth, Acute effects of electromagnetic fields emitted by GSM mobile phones on subjective well-being and physiological reactions: a meta-analysis. Sci. Total Environ. 424, 11–15 (2012) C. Augner, T. Gnambs, R. Winker, A. Barth, Acute effects of electromagnetic fields emitted by GSM mobile phones on subjective well-being and physiological reactions: a meta-analysis. Sci. Total Environ. 424, 11–15 (2012)
4.
Zurück zum Zitat H.B. Yang, B. Wen, L. Wang, Carbon nanotubes modified CoZn/C composites with rambutan-like applied to electromagnetic wave absorption. Appl. Surf. Sci. 509, 145336 (2020) H.B. Yang, B. Wen, L. Wang, Carbon nanotubes modified CoZn/C composites with rambutan-like applied to electromagnetic wave absorption. Appl. Surf. Sci. 509, 145336 (2020)
5.
Zurück zum Zitat L.N. Heynick, J.H. Merritt, Radiofrequency fields and teratogenesis. Bioelectromagnetics 24, S174–S186 (2003)CrossRef L.N. Heynick, J.H. Merritt, Radiofrequency fields and teratogenesis. Bioelectromagnetics 24, S174–S186 (2003)CrossRef
6.
Zurück zum Zitat X. Zhao, G. Dong, C. Wang, The non-thermal biological effects and mechanisms of microwave exposure. Int. J. Radiation Res. Jul. 19(3), 483–494 (2021)CrossRef X. Zhao, G. Dong, C. Wang, The non-thermal biological effects and mechanisms of microwave exposure. Int. J. Radiation Res. Jul. 19(3), 483–494 (2021)CrossRef
7.
Zurück zum Zitat A. Dubey, T.C. Shami, Metamaterials in Electromagnetic Wave absorbers. Def. Sci. J. Jul. 62(4), 261–268 (2012)CrossRef A. Dubey, T.C. Shami, Metamaterials in Electromagnetic Wave absorbers. Def. Sci. J. Jul. 62(4), 261–268 (2012)CrossRef
8.
Zurück zum Zitat H.H. Chen, W.L. Ma, Z.Y. Huang, Y. Zhang, Y. Huang, Y.S. Chen, Graphene-based materials toward microwave and terahertz absorbing stealth technologies. Adv. Opt. Mater. 7, 1801318 (2019) H.H. Chen, W.L. Ma, Z.Y. Huang, Y. Zhang, Y. Huang, Y.S. Chen, Graphene-based materials toward microwave and terahertz absorbing stealth technologies. Adv. Opt. Mater. 7, 1801318 (2019)
9.
Zurück zum Zitat J.Y. Suen, K. Fan, W.A. Padilla, A zero-rank, maximum nullity perfect electromagnetic wave absorber. Adv. Opt. Mater. 7, 1801632 (2019) J.Y. Suen, K. Fan, W.A. Padilla, A zero-rank, maximum nullity perfect electromagnetic wave absorber. Adv. Opt. Mater. 7, 1801632 (2019)
10.
Zurück zum Zitat K.K. Sawant, A. Satapathy, K. Mahimkar, S. Krishnamurthy, A. Kaur, B. Kandasubramanian, A.A. Bazil Raj, Recent advances in mxene nanocomposites as electromagnetic radiation absorbing materials. J. Electron. Mater. 52, 3576–3590 (2023)CrossRef K.K. Sawant, A. Satapathy, K. Mahimkar, S. Krishnamurthy, A. Kaur, B. Kandasubramanian, A.A. Bazil Raj, Recent advances in mxene nanocomposites as electromagnetic radiation absorbing materials. J. Electron. Mater. 52, 3576–3590 (2023)CrossRef
11.
Zurück zum Zitat A. Fionov, I. Kraev, G. Yurkov, V. Solodilov, A. Zhukov, A. Surgay, I. Kuznetsova, V. Kolesov, Radio-absorbing materials based on polymer composites and their application to solving the problems of electromagnetic compatibility. Polymers 14, 3026 (2022) A. Fionov, I. Kraev, G. Yurkov, V. Solodilov, A. Zhukov, A. Surgay, I. Kuznetsova, V. Kolesov, Radio-absorbing materials based on polymer composites and their application to solving the problems of electromagnetic compatibility. Polymers 14, 3026 (2022)
12.
Zurück zum Zitat C.M. Watts, X.L. Liu, W.J. Padilla, Metamaterial electromagnetic wave absorbers. Adv. Mater. 24, OP98–OP120 (2012) C.M. Watts, X.L. Liu, W.J. Padilla, Metamaterial electromagnetic wave absorbers. Adv. Mater. 24, OP98–OP120 (2012)
13.
Zurück zum Zitat F. Ruiz-Perez, S.M. López-Estrada, R.V. Tolentino-Hernández, F. Caballero-Briones, Carbon-based radar absorbing materials: a critical review. J. Sci.: Adv. Mater. Devices 7, 100454 (2022) F. Ruiz-Perez, S.M. López-Estrada, R.V. Tolentino-Hernández, F. Caballero-Briones, Carbon-based radar absorbing materials: a critical review. J. Sci.: Adv. Mater. Devices 7, 100454 (2022)
14.
Zurück zum Zitat Z.T. Shen, Y.P. Zu, Y.Q. Chen, S. Ma, Z.D. Zhang, J. Gong, C. Sun, A novel synthesis method of magnetic porous carbon composites for microwave absorption. Synth. Met. 291, 117184 (2022) Z.T. Shen, Y.P. Zu, Y.Q. Chen, S. Ma, Z.D. Zhang, J. Gong, C. Sun, A novel synthesis method of magnetic porous carbon composites for microwave absorption. Synth. Met. 291, 117184 (2022)
15.
Zurück zum Zitat J.Y. Yusuf, H. Soleimani, N. Yahya, Y.K. Sanusi, L.L. Adebayo, S. Sikiru, F.A. Wahaab, Recent advances and prospect of cobalt based microwave absorbing materials. Ceram. Int. 46, 26466–26485 (2020) J.Y. Yusuf, H. Soleimani, N. Yahya, Y.K. Sanusi, L.L. Adebayo, S. Sikiru, F.A. Wahaab, Recent advances and prospect of cobalt based microwave absorbing materials. Ceram. Int. 46, 26466–26485 (2020)
16.
Zurück zum Zitat W.H. Choi, C.G. Kim, Broadband microwave-absorbing honeycomb structure with novel design concept. Compos. B Eng. 83, 14–20 (2015) W.H. Choi, C.G. Kim, Broadband microwave-absorbing honeycomb structure with novel design concept. Compos. B Eng. 83, 14–20 (2015)
17.
Zurück zum Zitat M. Itoh, M. Terada, F. Shogano, K. Machida, Broadband electromagnetic wave absorbers prepared by grading magnetic powder density. J. Appl. Phys. 108, 063911 (2010) M. Itoh, M. Terada, F. Shogano, K. Machida, Broadband electromagnetic wave absorbers prepared by grading magnetic powder density. J. Appl. Phys. 108, 063911 (2010)
18.
Zurück zum Zitat J.Y. Fang, P. Li, Y.D. Liu, Y.G. Min, Cobalt magnetic particles and carbon composite microtubes as high-performance electromagnetic wave absorbers. J. Mater. Chem. C 9, 2474–2482 (2021) J.Y. Fang, P. Li, Y.D. Liu, Y.G. Min, Cobalt magnetic particles and carbon composite microtubes as high-performance electromagnetic wave absorbers. J. Mater. Chem. C 9, 2474–2482 (2021)
19.
Zurück zum Zitat F.F. Yan, Y. Zong, C.J. Zhao, G.G. Tan, Y. Sun, X.H. Li, Z.Y. Ren, X.L. Zheng, Porous Co nanospheres supported on nitrogen-doped graphene as high-efficiency electromagnetic wave absorbers with thin thickness. J. Alloys Compd. 742, 928–936 (2018) F.F. Yan, Y. Zong, C.J. Zhao, G.G. Tan, Y. Sun, X.H. Li, Z.Y. Ren, X.L. Zheng, Porous Co nanospheres supported on nitrogen-doped graphene as high-efficiency electromagnetic wave absorbers with thin thickness. J. Alloys Compd. 742, 928–936 (2018)
20.
Zurück zum Zitat B.Y. Zhou, Y.F. Wang, F.S. Li, L.Y. Tang, T. Wang, L. Qiao, Submicron carbonyl iron particles as an efficient microwave absorber in the low frequency band. J. Phys. D-Appl. Phys., 50, 475001 (2017) B.Y. Zhou, Y.F. Wang, F.S. Li, L.Y. Tang, T. Wang, L. Qiao, Submicron carbonyl iron particles as an efficient microwave absorber in the low frequency band. J. Phys. D-Appl. Phys., 50, 475001 (2017)
21.
Zurück zum Zitat Y. Nie, H.H. He, R.Z. Gong, X.C. Zhang, The electromagnetic characteristics and design of mechanically alloyed Fe-Co particles for electromagnetic-wave absorber. J. Magn. Magn. Mater. 310, 13–16 (2007) Y. Nie, H.H. He, R.Z. Gong, X.C. Zhang, The electromagnetic characteristics and design of mechanically alloyed Fe-Co particles for electromagnetic-wave absorber. J. Magn. Magn. Mater. 310, 13–16 (2007)
22.
Zurück zum Zitat W.C. Li, X. Zhou, Y. Ying, L.Q. Jiang, S.L. Che, Particle thickness effect on electromagnetic properties of flake-shaped FeNi alloy. Phys. Status Solidi A 212, 2944–2950 (2015) W.C. Li, X. Zhou, Y. Ying, L.Q. Jiang, S.L. Che, Particle thickness effect on electromagnetic properties of flake-shaped FeNi alloy. Phys. Status Solidi A 212, 2944–2950 (2015)
23.
Zurück zum Zitat X.D. Weng, B.Z. Li, Y. Zhang, X.L. Lv, G.X. Gu, Synthesis of flake shaped carbonyl iron/reduced graphene oxide/polyvinyl pyrrolidone ternary nanocomposites and their microwave absorbing properties. J. Alloys Compd. 695, 508–519 (2017) X.D. Weng, B.Z. Li, Y. Zhang, X.L. Lv, G.X. Gu, Synthesis of flake shaped carbonyl iron/reduced graphene oxide/polyvinyl pyrrolidone ternary nanocomposites and their microwave absorbing properties. J. Alloys Compd. 695, 508–519 (2017)
24.
Zurück zum Zitat C.H. Tsau, S.X. Lin, C.H. Fang, Microstructures and corrosion behaviors of FeCoNi and CrFeCoNi equimolar alloys. Mater. Chem. Phys. 186, 534–540 (2017) C.H. Tsau, S.X. Lin, C.H. Fang, Microstructures and corrosion behaviors of FeCoNi and CrFeCoNi equimolar alloys. Mater. Chem. Phys. 186, 534–540 (2017)
25.
Zurück zum Zitat C. Wang, F.Y. Kang, J.L. Gu, Synthesis and microwave absorbing properties of FeCoNi alloy particles/graphite flaky composites. J. Inorg. Mater. 25(4), 406–410 (2010) C. Wang, F.Y. Kang, J.L. Gu, Synthesis and microwave absorbing properties of FeCoNi alloy particles/graphite flaky composites. J. Inorg. Mater. 25(4), 406–410 (2010)
26.
Zurück zum Zitat Y.J. Li, J. Zhai, L.C. Zhao, J.P. Chen, X.N. Shang, C.M. Song, J.C. Chen, S. Liu, F.B. Meng, FeCoNi alloy-encapsulated graphene nanoplatelets with excellent magnetic properties, thermal stability and electrochemical performances. J. Solid State Chem. 276, 19–29 (2019) Y.J. Li, J. Zhai, L.C. Zhao, J.P. Chen, X.N. Shang, C.M. Song, J.C. Chen, S. Liu, F.B. Meng, FeCoNi alloy-encapsulated graphene nanoplatelets with excellent magnetic properties, thermal stability and electrochemical performances. J. Solid State Chem. 276, 19–29 (2019)
27.
Zurück zum Zitat N. Liu, W. Ding, X.J. Wang, J. Zhang, P.J. Zhou, C. Mu, Phases, microstructures and properties of multi-component FeCoNi-based alloys. Mater. Sci. Technol. 36, 654–660 (2020) N. Liu, W. Ding, X.J. Wang, J. Zhang, P.J. Zhou, C. Mu, Phases, microstructures and properties of multi-component FeCoNi-based alloys. Mater. Sci. Technol. 36, 654–660 (2020)
28.
Zurück zum Zitat P.C. Ji, Z.H. Wang, Y.K. Mu, Y.D. Jia, G. Wang, Microstructural evolution of (FeCoNi)85.84Al7.07Ti7.09 high-entropy alloy fabricated by an optimized selective laser melting process. Mater. Design 224, 111326 (2022) P.C. Ji, Z.H. Wang, Y.K. Mu, Y.D. Jia, G. Wang, Microstructural evolution of (FeCoNi)85.84Al7.07Ti7.09 high-entropy alloy fabricated by an optimized selective laser melting process. Mater. Design 224, 111326 (2022)
29.
Zurück zum Zitat A. Watanabe, T. Yamamoto, R. Miyamoto, Y. Takigawa, Microstructure and tensile strength of electrodeposited Fe-rich bcc FeCoNi medium-entropy alloys. Mater. Sci. Technol. 39, 2028–2034 (2023) A. Watanabe, T. Yamamoto, R. Miyamoto, Y. Takigawa, Microstructure and tensile strength of electrodeposited Fe-rich bcc FeCoNi medium-entropy alloys. Mater. Sci. Technol. 39, 2028–2034 (2023)
30.
Zurück zum Zitat B.T. Yang, J.F. Fang, C.Y. Xu, H. Cao, R.X. Zhang, B.A. Zhao, M.Q. Huang, X.Y. Wang, H.L. Lv, R.C. Che, One-dimensional magnetic FeCoNi alloy toward low-frequency electromagnetic wave absorption. Nano-Micro Lett. 14, 170 (2022) B.T. Yang, J.F. Fang, C.Y. Xu, H. Cao, R.X. Zhang, B.A. Zhao, M.Q. Huang, X.Y. Wang, H.L. Lv, R.C. Che, One-dimensional magnetic FeCoNi alloy toward low-frequency electromagnetic wave absorption. Nano-Micro Lett. 14, 170 (2022)
31.
Zurück zum Zitat Z.K. Yin, J. Wu, L.W. Liang, C.C. Kong, A. Pervikov, H.T. Shi, X.W. Li, Microwave-absorbing performance of FeCoNi magnetic nanopowders synthesized by electrical explosion of wires. J. Alloys Compd. 966, 171594 (2023) Z.K. Yin, J. Wu, L.W. Liang, C.C. Kong, A. Pervikov, H.T. Shi, X.W. Li, Microwave-absorbing performance of FeCoNi magnetic nanopowders synthesized by electrical explosion of wires. J. Alloys Compd. 966, 171594 (2023)
32.
Zurück zum Zitat T. Kim, J. Lee, K. Lee, B. Park, B.M. Jung, S.B. Lee, Magnetic and dispersible FeCoNi-graphene film produced without heat treatment for electromagnetic wave absorption. Chem. Eng. J. 361, 1182–1189 (2019) T. Kim, J. Lee, K. Lee, B. Park, B.M. Jung, S.B. Lee, Magnetic and dispersible FeCoNi-graphene film produced without heat treatment for electromagnetic wave absorption. Chem. Eng. J. 361, 1182–1189 (2019)
Metadaten
Titel
Synthesis and Study of Electromagnetic Wave Absorption Performance of Nano Medium-Entropy FeCoNi Magnetic Alloy Particles with Varying Ni Element Contents
verfasst von
Hong Li
Hongyang Li
Feng Yang
Qing Cai
Wenqi Xu
Ran Wang
Ying Liu
Publikationsdatum
09.08.2024
Verlag
The Korean Institute of Metals and Materials
Erschienen in
Metals and Materials International
Print ISSN: 1598-9623
Elektronische ISSN: 2005-4149
DOI
https://doi.org/10.1007/s12540-024-01737-2

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