Measurement method for fragment velocity based on active screen array in static detonation test

Yang Jiuqi; Dong Tao; Chen Ding; Ni Jinping; Kai Baisheng

doi:10.3788/irla202049.0113003

[1] Yu Yuting, Shu Jingrong, Ding Bosheng. Design of fuze-warhead coordination based on laser fuze and prefabricated fragment ammunition[J]. Infrared and Laser Engineering, 2018, 47(3): 0303003. (in Chinese)

Yu Yuting, Shu Jingrong, Ding Bosheng. Design of fuze-warhead coordination based on laser fuze and prefabricated fragment ammunition[J]. Infrared and Laser Engineering, 2018, 47(3): 0303003. (in Chinese)

[2] Ni Jinping. Technology and Application of Meaurement of the Light Screen Array[M]. Beijing: National Defense Industry Press, 2014. (in Chinese)

Ni Jinping. Technology and Application of Meaurement of the Light Screen Array[M]. Beijing: National Defense Industry Press, 2014. (in Chinese)

[3] Li Hanshan, Gao Junchai, Wang Zemin. Object location fire precision test technology by using intersecting photoelectric detection target[J]. Optik, 2014, 125(3): 1325-1329.

Li Hanshan, Gao Junchai, Wang Zemin. Object location fire precision test technology by using intersecting photoelectric detection target[J]. Optik, 2014, 125(3): 1325-1329.

[4] Chen Ding, Ni Jinping, Li Xiaojuan. Analysis of probability of exterior ballistic projectiles from rapid-fire weapon passing through a screen simultaneously[J]. Acta Armamentarii, 2018, 39(2): 383-390. (in Chinese)

Chen Ding, Ni Jinping, Li Xiaojuan. Analysis of probability of exterior ballistic projectiles from rapid-fire weapon passing through a screen simultaneously[J]. Acta Armamentarii, 2018, 39(2): 383-390. (in Chinese)

[5] Yu Jiyan, Li Yongxin, Wang Xiaoming. Measurement of impact points using reflective light screen target of single column light source[J]. Optics and Precision Engineering, 2010, 18(6): 1354-1360. (in Chinese)

Yu Jiyan, Li Yongxin, Wang Xiaoming. Measurement of impact points using reflective light screen target of single column light source[J]. Optics and Precision Engineering, 2010, 18(6): 1354-1360. (in Chinese)

[6] Yuan Yun, Tian Hui. Analysis and amendment on the sensitivity of large target area light screen[J]. Infrared and Laser Engineering, 2018, 47(6): 0617004. (in Chinese)

Yuan Yun, Tian Hui. Analysis and amendment on the sensitivity of large target area light screen[J]. Infrared and Laser Engineering, 2018, 47(6): 0617004. (in Chinese)

[7] He Kaiping, Xu Da, Li Hua. High precision measurement for barrange weapon dispersion based on large area triangle composite light-screens[J]. Optics and Precision Engineering, 2015, 23(6): 1523-1529. (in Chinese)

He Kaiping, Xu Da, Li Hua. High precision measurement for barrange weapon dispersion based on large area triangle composite light-screens[J]. Optics and Precision Engineering, 2015, 23(6): 1523-1529. (in Chinese)

[8] Chen Ding, Ni Jinping. Pulse compression-based improvement on the estimation accuracy of time interval between two trigger signals in light screen array[J]. Optik, 2018, 158: 675-683.

Chen Ding, Ni Jinping. Pulse compression-based improvement on the estimation accuracy of time interval between two trigger signals in light screen array[J]. Optik, 2018, 158: 675-683.

[9] Ni Jinping, Yang Lei. A measuring method for velocity of warhead fragments[J]. Acta Armamentarii, 2007, 28(1): 33-37. (in Chinese)

Ni Jinping, Yang Lei. A measuring method for velocity of warhead fragments[J]. Acta Armamentarii, 2007, 28(1): 33-37. (in Chinese)

[10] Wei Hongqiang, Wang Jinsong, Feng Jinliang, et al. Measurement method for velocity of warhead fragments based on laser screen[J]. Chinese Journal of Scientific Instrument, 2008, 29(10): 2225-2229. (in Chinese)

Wei Hongqiang, Wang Jinsong, Feng Jinliang, et al. Measurement method for velocity of warhead fragments based on laser screen[J]. Chinese Journal of Scientific Instrument, 2008, 29(10): 2225-2229. (in Chinese)

[11] Liu Zeqing, Zhang Yurong, Zhao Jianxin, et al. High-speed photography velocity measurement in range based on digital photogrammetry[J]. Journal of Ballistics, 2015, 27(4): 47-51. (in Chinese)

Liu Zeqing, Zhang Yurong, Zhao Jianxin, et al. High-speed photography velocity measurement in range based on digital photogrammetry[J]. Journal of Ballistics, 2015, 27(4): 47-51. (in Chinese)

[12] Yang Yong. Research on the technologies of fragment velocity parameter measurement based on millimeter-wave array radar[D]. Changsha: National University of Defense Technology, 2011. (in Chinese)

Yang Yong. Research on the technologies of fragment velocity parameter measurement based on millimeter-wave array radar[D]. Changsha: National University of Defense Technology, 2011. (in Chinese)

[13] Gao Juan, Dong Tao, Ni Jinping. Light curtain sensor based on laser reflection[J]. Journal of Applied Optics, 2013, 34(2): 359-362. (in Chinese)

Gao Juan, Dong Tao, Ni Jinping. Light curtain sensor based on laser reflection[J]. Journal of Applied Optics, 2013, 34(2): 359-362. (in Chinese)

[14] Wang Zhuang. The design of active dual-light curtain precision velocity measuring system[D]. Tianjin: Tianjin University, 2012. (in Chinese)

Wang Zhuang. The design of active dual-light curtain precision velocity measuring system[D]. Tianjin: Tianjin University, 2012. (in Chinese)