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    Journals >Infrared and Laser Engineering >Volume 49 >Issue 4 >Page 0403003 > Article
    • Infrared and Laser Engineering
    • Vol. 49, Issue 4, 0403003 (2020)
    Detonation control modeling and simulation for dodecagon-detection laser fuze
    Hong Su1, Yali Hou1, Gang Wang2, and Gang Li1
    Author Affiliations
  • 1Sciense and Technology on Electromechanical Dynamic Control Laboratory, Xi'an 710065, China
  • 2Xi'an Institute of Electromechanical Information Technology, Xi'an 710065, China
    • show less
    DOI: 10.3788/IRLA202049.0403003 Cite this Article
    Hong Su, Yali Hou, Gang Wang, Gang Li. Detonation control modeling and simulation for dodecagon-detection laser fuze[J]. Infrared and Laser Engineering, 2020, 49(4): 0403003 Copy Citation Text show less
    Principle schematic diagram of dodecagon-detection directional warhead
    Fig. 1. Principle schematic diagram of dodecagon-detection directional warhead
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    Schematic diagram of detector scanning area within time T1-T6
    Fig. 2. Schematic diagram of detector scanning area within time T1-T6
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    Diagram of target occupying two azimuth regions
    Fig. 3. Diagram of target occupying two azimuth regions
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    Diagram of target occupying three azimuth regions
    Fig. 4. Diagram of target occupying three azimuth regions
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    Diagram of target occupying four azimuth regions
    Fig. 5. Diagram of target occupying four azimuth regions
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    Schematic diagram of parallel intersection
    Fig. 6. Schematic diagram of parallel intersection
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    Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 5 ms
    Fig. 7. Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 5 ms
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    Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 3 ms
    Fig. 8. Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 3 ms
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    Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 1 ms
    Fig. 9. Relationship between fragment flying scattering angle, miss distance and average damage probability when delay time is 1 ms
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    Relationship of average damage probability, delay time and fragment fly scattering angle
    Fig. 10. Relationship of average damage probability, delay time and fragment fly scattering angle
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    Relationship of average damage probability, delay time and miss distance
    Fig. 11. Relationship of average damage probability, delay time and miss distance
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    Abstract
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    References (8)
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    Hong Su, Yali Hou, Gang Wang, Gang Li. Detonation control modeling and simulation for dodecagon-detection laser fuze[J]. Infrared and Laser Engineering, 2020, 49(4): 0403003
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    Paper Information
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