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    Journals >Infrared and Laser Engineering >Volume 51 >Issue 2 >Page 20210455 > Article
    • Infrared and Laser Engineering
    • Vol. 51, Issue 2, 20210455 (2022)
    Research on infrared/passive millimeter wave compound decoy
    Zhongyang Xiong1, Chenguang Zhu1,2,*, Fanshun Duanmu1, and Jingwei Li1
    Author Affiliations
  • 1School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China
  • 2Science and Technology on Electro-Optical Information Security Control Laboratory, Tianjin 300308, China
    • show less
    DOI: 10.3788/IRLA20210455 Cite this Article
    Zhongyang Xiong, Chenguang Zhu, Fanshun Duanmu, Jingwei Li. Research on infrared/passive millimeter wave compound decoy[J]. Infrared and Laser Engineering, 2022, 51(2): 20210455 Copy Citation Text show less
    Diagram of 3 mm passive millimeter wave radiometer and operation interface
    Fig. 1. Diagram of 3 mm passive millimeter wave radiometer and operation interface
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    Samples of membrane
    Fig. 2. Samples of membrane
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    Average temperature of flame and combustion time of sample with different content of red phosphorus
    Fig. 3. Average temperature of flame and combustion time of sample with different content of red phosphorus
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    Average temperature of flame and combustion time of flame with different content of carbon fiber(3, 3-0.25C-3-1.75C)
    Fig. 4. Average temperature of flame and combustion time of flame with different content of carbon fiber(3, 3-0.25C-3-1.75C)
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    Average radiation intensity and maximum radiation area of samplo with different content of red phosphorus
    Fig. 5. Average radiation intensity and maximum radiation area of samplo with different content of red phosphorus
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    Average radiation intensity and maximum radiation area of sample with different content of carbon fiber
    Fig. 6. Average radiation intensity and maximum radiation area of sample with different content of carbon fiber
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    Fig. (a)-(e) are the comparison of millimeter wave brightness temperature between 1-5 and 1-0.50-5-0.50
    Fig. 7. Fig. (a)-(e) are the comparison of millimeter wave brightness temperature between 1-5 and 1-0.50-5-0.50
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    Comparison of millimeter wave radiation brightness temperature of samples with different carbon fiber
    Fig. 8. Comparison of millimeter wave radiation brightness temperature of samples with different carbon fiber
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    NumberCarbon fiber (1.0 mm)MgPPTFEViton
    10%50%0%50%10%
    20%45%5%
    30%40%10%
    40%35%15%
    50%30%20%
    1-0.500.5%50%0%
    2-0.500.5%45%5%
    3-0.500.5%40%10%
    4-0.500.5%35%15%
    5-0.500.5%30%20%
    3-0.25C0.25%40%10%
    3-0.50C0.50%40%10%
    3-0.75C0.75%40%10%
    3-1.00C1.00%40%10%
    3-1.25C1.25%40%10%
    3-1.50C1.50%40%10%
    3-1.75C1.75%40%10%
    Table 1. Design of formulation
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    Abstract
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    Figures&Tables (9)
    Equations (5)
    References (19)
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    Zhongyang Xiong, Chenguang Zhu, Fanshun Duanmu, Jingwei Li. Research on infrared/passive millimeter wave compound decoy[J]. Infrared and Laser Engineering, 2022, 51(2): 20210455
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