Complex permeability and microwave absorption properties of planar anisotropy Ce2Fe17N3−δ particles

Zuo, Wenlong; Qiao, Liang; Chi, Xiao; Wang, Tao; Li, Fashen

doi:10.1016/j.jallcom.2011.03.105

Cited by 42 publications

(11 citation statements)

References 29 publications

(37 reference statements)

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“…Different from the dielectric materials, the magnetic materials exhibit an obvious advantage for the impedance matching properties. In fact, a higher saturation magnetization value (M s ) for a magnetic material is always attributed to a higher m 0 value based on the following eqn (7): 25,26 (m 0 À 1)…”

Section: Introductionmentioning

confidence: 99%

Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Zhang

et al. 2015

RSC Adv.

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Section: Introductionmentioning

confidence: 99%

Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Zhang

et al. 2015

RSC Adv.

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“…[11] Based on previous work about oriented microwave absorbers, the oriented composite absorber showed a dramatic increase in permeability and a remarkable decrease in the matching thickness. [13] In Fig.…”

Section: Resultsmentioning

confidence: 99%

“…[10] In addition, arc melting and a long homogeneous annealing were used to synthesize rare earth alloys in previous studies, which limits the production and complicates the process. [13,14] Therefore, it is urgent to explore and apply a new synthesis process to produce rare earth alloys efficiently in large quantities. As mentioned above, although the researchers have tried many materials and enumerated related data in detail to prove that their synthesized materials have excellent microwave absorption properties.…”

Section: Introductionmentioning

confidence: 99%

Microwave absorption properties regulation and bandwidth formula of oriented Y₂Fe₁₇N_3–δ@SiO₂/PU composite synthesized by reduction–diffusion method

et al. 2022

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As concepts closely related to microwave absorption properties, impedance matching and phase matching were rarely combined with material parameters to regulate properties and explore related mechanisms. In this work, reduction diffusion method was innovatively applied to synthesize rare earth alloy Y2Fe17. In order to regulate the electromagnetic parameters of absorbers, the Y2Fe17N3-δ particles were coated with silica (Y2Fe17N3-δ@SiO2) and absorbers with different volume fractions were prepared. The relationship between impedance matching, matching thickness and the strongest reflection loss peak (RL min ) was presented obviously. Compared to the microwave absorption properties of Y2Fe17N3-δ/PU absorber, Y2Fe17N3-δ@SiO2/PU absorbers are more conducive to the realization of microwave absorption material standards which are thin thickness, light weight, strong absorbing intensity and broad bandwidth. Based on microwave frequency bands, the microwave absorption properties of the absorbers were analyzed and the related parameters were listed. As an important parameter related to perfect matching, reflection factor ($\sqrt {{\varepsilon _r}/{\mu _r}} $) was discussed combined with microwave amplitude attenuation. According to the origin and mathematical model of bandwidth, the formula of EAB (RL<-10 dB) was derived and simplified. The calculated bandwidths agreed well with the experimental results.

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“…The RL of the absorber composites is supported by a perfect conductor and can be computed with the complex permittivity and permeability for the given frequency and absorber thicknesses. The RL of the composites can be computed by exerting the following equation and the measured electromagnetic parameters [40]:

Z_{in} = \sqrt{\frac{μ_{r}}{s_{r}}} \tanh ()(, j \frac{2 π f d}{c} \sqrt{μ_{normalr} ε_{normalr}})

RL = 20 \log (|, (|, \frac{Z_{in} - 1}{Z_{in} + 1}))

where RL shows the reflection loss in decibel unit, Z in is the normalised input impedance relating to the impedance in free space, f is the microwave frequency, d is the thickness of the absorbing layer, c is the velocity of the electromagnetic wave in vacuum, and ɛ r and μ r are the complex relative permittivity and permeability, respectively. The equation for impedance matching ( Z in = 1) becomes:

1 = \sqrt{\frac{μ_{r}}{ε_{r}}} \tanh ()(, j \frac{2 π f d}{c} \sqrt{μ_{normalr} ε_{normalr}})

The matching frequency ( f m ) and thickness ( d m ) can be specified by using (4).…”

Section: Resultsmentioning

confidence: 99%

Synthesis and evaluation of microwave absorption properties of Fe ₃ O ₄ /Halloysite/polypyrrole nanocomposites

Maleki¹,

Babamoradi²,

Hajizadeh³

et al. 2020

Micro & Nano Letters

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Complex permeability and microwave absorption properties of planar anisotropy Ce2Fe17N3−δ particles

Cited by 42 publications

References 29 publications

Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Microwave absorption properties regulation and bandwidth formula of oriented Y₂Fe₁₇N_3–δ@SiO₂/PU composite synthesized by reduction–diffusion method

Synthesis and evaluation of microwave absorption properties of Fe ₃ O ₄ /Halloysite/polypyrrole nanocomposites

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Complex permeability and microwave absorption properties of planar anisotropy Ce2Fe17N3−δ particles

Cited by 42 publications

References 29 publications

Facile synthesis of a CNT@Fe@SiO2 ternary composite with enhanced microwave absorption performance

Facile synthesis of a CNT@Fe@SiO2 ternary composite with enhanced microwave absorption performance

Microwave absorption properties regulation and bandwidth formula of oriented Y2Fe17N3–δ @SiO2/PU composite synthesized by reduction–diffusion method

Synthesis and evaluation of microwave absorption properties of Fe 3 O 4 /Halloysite/polypyrrole nanocomposites

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Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Facile synthesis of a CNT@Fe@SiO₂ ternary composite with enhanced microwave absorption performance

Microwave absorption properties regulation and bandwidth formula of oriented Y₂Fe₁₇N_3–δ@SiO₂/PU composite synthesized by reduction–diffusion method

Synthesis and evaluation of microwave absorption properties of Fe ₃ O ₄ /Halloysite/polypyrrole nanocomposites