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Hui Ji

Donghua University

Shanghai 200051

China

SCHOLARLY PAPERS

6

DOWNLOADS

232

TOTAL CITATIONS

1

Scholarly Papers (6)

Novel Design Concept and Integrated Preparation for an Ultra-Light, Ultra-Thin and Ultra-Broadband Planar Microwave Absorbing Fabric

Number of pages: 26 Posted: 17 Dec 2024
Donghua University, Systems Engineering Institute, Systems Engineering Institute, Donghua University and Donghua University
Downloads 44 (1,170,161)

Abstract:

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Ultra-broadband, Ultra-thin, Absorbing fabric, Glass-coated amorphous magnetic fibers, Jaumann-like absorber, Microwave absorption

Novel Design Concept and Integrated Preparation for an Ultra-Light, Ultra-Thin and Ultra-Broadband Planar Microwave Absorbing Fabric

Number of pages: 17 Posted: 04 Oct 2024
Donghua University, Systems Engineering Institute, Systems Engineering Institute, Donghua University and Donghua University
Downloads 34 (1,296,409)

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Ultra-broadband, Ultra-thin, Absorbing fabric, Glass-coated amorphous magnetic fibers, Jaumann-like absorber, Microwave absorption

Ultralight Broadband Microwave Absorbing Materials Basing on Short Fibers of the Glass-Coated Amorphous Magnetic Microwires

Number of pages: 17 Posted: 15 Feb 2022
Donghua University, Systems Engineering Institute, Systems Engineering Institute, Donghua University, Donghua University, affiliation not provided to SSRN and Donghua University
Downloads 27 (1,400,723)

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Glass-coated amorphous magnetic microwires, Short fiber, Microwave absorbing material, Broadband, Resonance effect, Multiple electromagnetic loss

Ultralight Broadband Microwave Absorbing Materials Basing on Short Fibers of the Glass-Coated Amorphous Magnetic Microwires

Number of pages: 17 Posted: 15 Feb 2022
Donghua University, Systems Engineering Institute, Donghua University, Donghua University, affiliation not provided to SSRN, Donghua University and Systems Engineering Institute
Downloads 17 (1,537,408)

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Glass-coated amorphous magnetic microwires, Short fiber, Microwave absorbing material, Broadband, Resonance effect, Multiple electromagnetic loss

3.

Super-Compressible Aramid Fiber-Reinforced Carbon Nanotube/Polydimethylsiloxane Foams with Highly Frequency Tunable Microwave Attenuation and Adjustable Mechanical Properties

Number of pages: 17 Posted: 22 Apr 2025
Donghua University, North University of China, affiliation not provided to SSRN, affiliation not provided to SSRN, affiliation not provided to SSRN, Nanjing University of Aeronautics and Astronautics, National University of Singapore (NUS) - Department of Mechanical Engineering and National University of Singapore (NUS)
Downloads 32 (1,332,057)

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Aramid fiber, PDMS foam, compressibility, microwave attenuation, multifunction

4.

One-Step Fabrication of a Novel Fiber-Based Absorber for Flexible, Tunable and Boosted Microwave Absorption

Number of pages: 23 Posted: 01 Aug 2024
Donghua University, Systems Engineering Institute, Donghua University, Donghua University, Systems Engineering Institute, Donghua University and Donghua University
Downloads 32 (1,290,922)
Citation 1

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Glass-coated amorphous magnetic fibers, Dallenbach absorbing structure, Wet forming technology, Flexible absorbing materials, Electromagnetic performance

5.

Origami Tunable Frequency Selective Fabric and its Tuning Mechanism

Number of pages: 13 Posted: 17 May 2022
Donghua University, Donghua University, Donghua University, Donghua University and Systems Engineering Institute
Downloads 31 (1,304,549)

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origami tunable frequency selective fabric, precise adjustment, multiple oblique incidence, equivalent electromagnetic parameters, particle swarm optimization algorithm

6.

Ultralight Broadband Microwave-Absorbing Materials Based on the Short Fibers of Glass-Coated Amorphous Magnetic Microwires

Number of pages: 16 Posted: 22 Feb 2022
Donghua University, Systems Engineering Institute, Systems Engineering Institute, Donghua University, Donghua University, affiliation not provided to SSRN and Donghua University
Downloads 15 (1,500,778)

Abstract:

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Glass-coated amorphous magnetic microwires, Short fiber, Microwave absorbing material, Broadband, Resonance effect, Multiple electromagnetic loss