[1] Koplow D A. Non-lethal weapons[M]. Cambridge, UK:Cambridge University Press,2006:7-10. [2] 罗志成.浅谈非致命技术与武器[J]. 警察技术, 2007(2):62-64. LUO Zhi-cheng. Talking about non-lethal technology and weapons[J]. Police Technology, 2007(2):62-64.(in Chinese) [3] 邹继京.评析新装警用武器—2010式10毫米转轮防暴手枪武器系统[J]. 公安教育,2011(5):40-42. ZOU Ji-jing. Analysis of the new police weapons-2010 type 10 mm anti-riot revolver system[J]. Police Education and Training, 2011(5): 40-42.(in Chinese) [4] 和海君, 张立国. 国产新型警用防暴动能弹—18.4 mm布袋弹[J]. 轻兵器, 2005(14):22-23. HE Hai-jun, ZHANG Li-guo. A new domestic police anti-riots kinetic energy munition—18.4 mm bag bullet[J]. Small Arms, 2005(14):22-23.(in Chinese) [5] 和海君, 翟文, 陈强, 等. 新型塑性体橡胶在防暴动能弹上的应用研究—38 mm软体变形弹的研发[J]. 警察技术, 2012(5): 68-70. HE Hai-jun, ZHAI Wen, CHEN Qiang, et al. Applied research on a new plastic rubber for anti-riots kinetic energy munition[J]. Police Technology, 2012(5):68-70.(in Chinese) [6] GJB349.3—87 常规兵器定型试验方法 延期爆炸杀伤手榴弹[S]. 北京:国防科学技术工业委员会, 1987. GJB349.3—87 the approval test method of conventional weapons—delayed-action explosive killing grenades[S]. Beijing: Commission of Science, Technology and Industry for National Defence, 1987. (in Chinese) [7] GJB/Z 20262—95 防暴动能弹威力标准[S]. 北京:中国人民解放军总参谋部, 1995. GJB/Z 20262—95 Anti-riot kinetic energy power standard [S]. Beijing:General Staff Department of PLA, 1995. (in Chinese) [8] 刘荫秋, 王正国, 马玉媛. 创伤弹道学[M]. 北京:人民军医出版社, 1991:28-33, 135-138. LIU Yin-qiu, WANG Zheng-guo,MA Yu-yuan. Wound ballistics[M]. Beijing: People's Military Medical Press,1991:28-33, 135-138.(in Chinese) [9] Kneubuehl B P, Coupland R M, Rothschild M A, et al. Wound ballistics[M]. NY,US:Springer Verlag Berlin Heidelberg, 2011. [10] 蒲利森,徐鹏,张正飞. 警用18.4 mm布袋弹威力测试[J]. 测试技术学报,2013, 27(5):406-410. PU Li-sen, XU Peng, ZHANG Zheng-fei.Power test of 18.4 mm bag bullets[J]. Journal of Test and Measurement Techology, 2013, 27(5):406-410.(in Chinese) [11] 蒲 利森, 黄宇宏, 李绪强, 等. 10 mm布袋弹的生物损伤效应特点研究[J]. 创伤外科杂志, 2014, 16(3):253-256. PU Li-sen, HUANG Yu-hong,LI Xu-qiang, et al. Experimental study of the biological wounding effects caused by 10 mm bag bullet[J]. Journal of Traumatic Surgery, 2014, 16(3):253-256. (in Chinese) [12] 蒲利森, 徐鹏, 李绪强, 等. 38 mm软体变形弹致伤效能评估[J]. 测试技术学报, 2014, 28(1):21-26. PU Li-sen,XU Peng,LI Xu-qiang, et al. Evaluation of damage efficiency of 38 mm flexible transformable bullets[J]. Journal of Test and Measurement Techology, 2014,28(1):21-26.(in Chinese) [13] 许琴,徐新明,张东辉, 等. 新疆长白猪皮肤组织结构与人皮肤组织结构的比较[J]. 实验动物科学, 2011, 28(3):34-36. XU Qin, XU Xin-ming, ZHANG Dong-hui, et al. Comparison of skin structure between Xinjiang landrace pig and human[J]. Laboratory Animal Science, 2011, 28(3):34-36. (in Chinese) [14] 谢玲, 孙丹红, 石碧. 四川黄羊皮组织结构的研究[J].皮革科学与工程, 2004,14(3):20-26. XIE Ling, SUN Dan-hong, SHI Bi. Study on the histological structure of yellow goat skins[J]. Leather Science and Engineering, 2004,14(3):20-26. (in Chinese) [15] 段维勋, 易定华. 爆炸性武器致胸部损伤的致伤机制[J]. 中国急救医学, 2002, 22(6):362-364. DUAN Wei-xun, YI Ding-hua. Injury mechanism of chest injury caused by explosive weapons[J]. Chinese Journal of Critical Care Medicine, 2002, 22(6):362-364.(in Chinese) |