Wounding effects of three kinds of small caliber rifle cartridges

Liu Kun; Wu Zhi-lin; Xu Wan-he; Mo Gen-lin

doi:10.11883/1001-1455(2014)05-0608-07

Volume 34 Issue 5

Dec. 2014

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Article Navigation > Explosion And Shock Waves > 2014 > 34(5): 608-614

Liu Kun, Wu Zhi-lin, Xu Wan-he, Mo Gen-lin. Wounding effects of three kinds of small caliber rifle cartridges[J]. Explosion And Shock Waves, 2014, 34(5): 608-614. doi: 10.11883/1001-1455(2014)05-0608-07

Citation:

Liu Kun, Wu Zhi-lin, Xu Wan-he, Mo Gen-lin. Wounding effects of three kinds of small caliber rifle cartridges[J]. Explosion And Shock Waves, 2014, 34(5): 608-614. doi: 10.11883/1001-1455(2014)05-0608-07

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Wounding effects of three kinds of small caliber rifle cartridges

doi: 10.11883/1001-1455(2014)05-0608-07

1.
School of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing 210094, Jiangsu, China
2.
Nanjing Mint Co.Ltd, Nanjing 211100, Jiangsu, China

Received Date: 2013-01-22
Rev Recd Date: 2013-09-01
Publish Date: 2014-09-25

Abstract

Abstract

To research the wounding effects of small caliber rifle cartridges, the following cartridges were chosen as the investigated objectives:the 5.56×45 mm NATO, 5.45×39 mm and 5.8×42 mm DBP 87 rifle cartridges.A series of theoretical analyses were performed for the above cartridges on their structural characteristics, performance parameters and motion in gelatin.The corresponding experiments were carried out for the cartridges penetrating into gelatin targets and the experimental results were discussed.The wounding effect of the 5.8×42 mm DBP 87 rifle cartridge was the best among the three kinds of small caliber rifle cartridges, which was consistent with the theoretical analyses.
- mechanics of explosion,
- wounding effects,
- "narrow channel"length,
- small caliber rifle cartridge,
- gelatin

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References(17)

References

[1]	王建中.自动武器论坛[M].北京: 国防工业出版社, 2007.
[2]	赵智.面临挑战的小口径枪弹[J].轻兵器, 2005(23): 30-33. http://qikan.cqvip.com/Qikan/Article/Detail?id=4000451079
[3]	袁国柱.对第二代小口径枪弹的初步分析[J].现代兵器, 1986(4): 5-8.
[4]	孙俊志, 欧日华, 李树军.步枪弹的终点效应与机体的创伤效应研究[J].华北工学院学报, 1999, 20(2): 145-150.
[5]	傅荣向.小口径枪弹致伤效应的试验与分析[J].轻兵器, 1983(8): 49-52.
[6]	刘宏勋, 马志杰.北约5.56mm、俄5.45mm、中国5.8mm枪弹评测[J].轻兵器, 2003(8): 26-27.
[7]	马式曾.北约的SS109式枪弹好, 还是苏联的5.45.毫米枪弹好[J].现代兵器, 1987(5): 24-25.
[8]	刘坤, 吴志林, 徐万和, 等.弹头侵彻明胶的运动模型研究[J].爆炸与冲击, 2012, 32(6): 616-622. doi: 10.3969/j.issn.1001-1455.2012.06.010 Liu Kun, Wu Zhi-lin, Xu Wan-he, et al. A motion model for bullet penetrating gelatin[J]. Explosion and Shock Waves, 2012, 32(6): 616-622. doi: 10.3969/j.issn.1001-1455.2012.06.010
[9]	刘坤, 吴志林, 徐万和, 等.弹头侵彻明胶的运动模型参数研究[J].高压物理学报, 2013, 27(5): 677-684. Liu Kun, Wu Zhi-lin, Xu Wan-he, et al. Research on Model Parameters of Bullet Penetrating Gelatin[J]. Chinese Journal of High Pressure Physics, 2013, 27(5): 677-684.
[10]	卞荣宣, 卞炜.谁是5.56毫米的继任者?美国酝酿新口径步兵武器[J].现代军事, 1996(3): 55-56.
[11]	王坚.小口径和微口径枪弹的发展[J].枪弹评论, 1979(5): 26-29.
[12]	Veth D C. Development of the new second NSTO caliber: The"5.56"with the SS109projectile[J]. Acta Chirurgica Scandinavica, 1982, 508(5): 129-134.
[13]	卞荣宣.现代军用枪弹[J].现代军事, 1996(7): 56-58.
[14]	范伟, 王岐鹏.另辟蹊径: DBP87式5.8mm普通弹独占鳌头[J].轻兵器, 2001(9): 6-7. http://www.cnki.com.cn/Article/CJFDTotal-QBQI200109004.htm
[15]	范伟.小口径枪弹的奇葩:中国DBP87式5.8毫米普通弹[J].兵器知识, 2000(10): 30-32.
[16]	郭首伟. 87式5.8mm枪弹侵彻力试验[J].轻兵器, 2000(2): 27-28.
[17]	郭首伟.更显威力的87式5.8mm枪弹[J].轻兵器, 1999(8): 10-11.

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