[1] 王立波. 远程气动灭火炮的结构设计与研究[D]. 哈尔滨: 哈尔滨工程大学, 2008.

Wang Libo. Structural design and research of long-range pneumatic fire monitor. Harbin: Harbin Engineering University, 2008
[2] 银河. BTR-80装甲输送车与GAZ-5903灭火车[J]. 兵器知识, 2001(9):39-39. (Yin He. BTR-80 armored transport vehicle and GAZ-5903 firefighting train[J]. Weapon Knowledge, 2001(9): 39-39
[3] 尚科. 灭火巡航导弹[J]. 北方消防, 2003(17):42-42. (Shang Ke. Firefighting cruise missile[J]. Northern fire control, 2003(17): 42-42
[4] 王政, 郭林. 支架式气动灭火炮: CN1765432A[P]. 2005-11-09. (Wang Zheng, Guo Lin. Bracket type pneumatic fire monitor: CN1765432A. 2005-11-09)
[5] Remote intelligent forest fire extinguishing system. Mine Warfare and Ship Protection, 2010, (3) : 74-74
[6] 何庆国. 某多管车载灭火炮射控系统分析及研究[D]. 南京: 南京理工大学, 2011.

He Qingguo. Analysis and research on the fire control system of a multi barrel vehicle mounted fire monitor. Nanjing : Nanjing University of Science and Technology, 2011
[7] 刘刚. 气动发射式高层建筑灭火炮研究[D]. 哈尔滨: 哈尔滨工程大学, 2012.

Liu Gang. Study on pneumatic launching fire extinguishing gun for high buildings. Harbin: Harbin Engineering University, 2012
[8] 韩永, 孟宪尉. 灭火弹可“打”300米高楼火灾高层楼宇灭火系统携22项专利亮相北京[J]. 消防与生活, 2014(4):36-36. (Han Yong, Meng Xianwei. The fire-extinguishing system of high-rise buildings with 300 meters high fire can be “hit” by fire bombs with 22 patents appeared in Beijing[J]. Fire and Life, 2014(4): 36-36
[9] 赵浩合. 一种新型智能迫击炮灭火弹的设计与研究[D]. 太原: 中北大学, 2017.

Zhao Haohe. Design and research of a new type of intelligent mortar fire-extinguishing projectile. Taiyuan : Zhongbei University, 2017
[10] 张亚东, 刘开培. 电磁动能武器概论[M]. 北京: 兵器工业出版社, 2015.

Zhang Yadong, Liu kaipei. Introduction to electromagnetic kinetic energy weapons. Beijing : Weapons Industry Press, 2015
[11] Widner M M. WARP-10: A numerical simulation model for the cylindrical reconnection launcher[J]. IEEE Trans Magnetics, 1991, 27(1): 634-638. doi: 10.1109/20.101108
[12] Kaye R, Turman B, Aubuchon M. Induction coilgun for EM mortar[J]. IEEE Trans Magnetics, 2007, 43(1): 1810-1813.
[13] Skurdal B D, Gaigler R L. Multimission electromagnetic launcher[J]. IEEE Trans Magnetics, 2009, 45(1): 458-461. doi: 10.1109/TMAG.2008.2008551
[14] Zhang Tao, Guo Wei, Lin Fuchang. Design and testing of 15-stage synchronous induction coilgun[J]. IEEE Trans Plasma Science, 2013, 41(5): 1089-1093. doi: 10.1109/TPS.2013.2251365
[15] Li Xian, Wang Qiuliang, Wang Housheng. Performance of a four-section linear induction coil launcher prototype[J]. IEEE Trans Plasma Science, 2014, 24(5): 1-5.
[16] 牛小波, 刘开培, 张亚东. 基于电流丝法的多级同步感应线圈炮电枢温升计算[J]. 强激光与粒子束, 2015, 27:095001. (Niu Xiaobo, Liu Kaipei, Zhang Yadong. Calculation of armature temperature rise of multistage synchronous induction coil gun based on current wire method[J]. High Power Laser and Particle Beams, 2015, 27: 095001
[17] 刘守豹, 阮江军, 彭迎. 改进电流丝法及其在感应线圈炮场路结合分析中的应用[J]. 中国电机工程学报, 2010, 30(30):128-134. (Liu Shoubao, Ruan Jiangjun, Peng Ying. Improved current wire method and its application in the combination analysis of induction coil battery[J]. Chinese Journal of Electrical Engineering, 2010, 30(30): 128-134
[18] Zhang Yadong, Xiao Gang, Gong Yujia. Armature structure research of a synchronous induction coil launcher[J]. IEEE Trans Plasma Science, 2017, 45(7): 1574-1578. doi: 10.1109/TPS.2017.2706270