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根据侵彻过程中的不同受力状态和耗能机制,结合高强聚乙烯纤维增强塑料(UFRP)层合板抗高速侵彻特点,将高速钝头弹对中厚UFRP的侵彻过程分为压缩镦粗、剪切压缩和拉伸变形三个阶段.基于三阶段侵彻机制,利用能量守恒原理建立了钝头弹高速侵彻中厚UFRP的弹道极限和剩余速度计算模型.采用侵彻模型计算了相关文献弹道试验工况下弹体的剩余速度和弹道极限速度,计算值与文献试验值吻合较好.三阶段侵彻模型考虑了试验中出现的纤维熔断和弹体镦粗现象,能够对高速钝头弹侵彻中厚UFRP的剩余速度和弹道极限速度进行合理预测,具有一定的理论价值和工程应用价值.

参考文献

[1] 梁子青,周庆,邱冠雄,等.超高分子量聚乙烯纤维防弹复合材料的研究[J].天津工业大学学报,2003,22(2):6-9.Liang Ziqing,Zhou Qing,Qiu Guanxiong,et al.Study on ultra-high molecular weight polyethylene antiballistic composites[J].Journal of Tianjin Polytechnic University,2003,22(2):6-9.
[2] Tan V B C,Khoo K J L.Perforation of flexible laminates by projectiles of different geometry[J].Int J Impact Eng,2005,31(7):793-810.
[3] 顾冰芳,龚烈航,徐国跃.UHMWPE纤维复合材料防弹机理和性能[J].纤维复合材料,2006(1):20-23.Gu Bingfang,Gong Liehang,Xu Guoyue.Ballistic resistance mechanism and performance of UHMWPE composites[J].Fiber Composites,2006(1):20-23.
[4] 王晓强,朱锡,梅志远,等.超高分子量聚乙烯纤维增强层合厚板抗弹性能实验研究[J].爆炸与冲击,2009,29(1):29-34.Wang Xiaoqiang,Zhu Xi,Mei Zhiyuan,et al.Ballistic performances of ultra-high molecular weight polyethylene fiber reinforced thick laminated plates[J].Explosion and Shock Waves,2009,29(1):29-34.
[5] 王晓强,朱锡,梅志远.高速钢质破片侵彻高强聚乙烯纤维增强塑料层合板试验研究[J].兵工学报,2009,30(12):1574-1578.Wang Xiaoqiang,Zhu Xi,Mei Zhiyuan.An experimental research on high velocity steel fragments perforating UHMWPE FRP laminates[J].Acta Armamentarii,2009,30(12):1574-1578.
[6] Jacobs M J N,Van Dingenen J L J.Ballistic protection mechanisms in personal armour[J].J Mater Sci,2001,36(5):3137-3142.
[7] Cantwell W J,Morton J.The influence of varying projectile mass on the impact response of CFRP[J].Compos Struct,1989,13(5):101-104.
[8] Cantwell W J,Mortan J.Impact perforation of carbon fiber reinforced plastic[J].Compos Sci Technol,1990,30(4):38-49.
[9] Taylor W J,Vinson J R.Modelling ballistic impact into flexible materials[J].AIAA Journal,1990,28(12):2098-2103.
[10] Morye S S,Hine P J,Duckett R A,et al.Modelling of the energy absorption by polymer composites upon ballistic impact[J].Compos Sci Technol,2000,60(14):2631-2642.
[11] 梅志远,朱锡,张立军.FRC层合板抗高速冲击机理研究[J].复合材料学报,2006,23(2):143-149.Mei Zhiyuan,Zhu Xi,Zhang Lijun.Ballistic protective mechanism of FRC laminates[J].Acta Materiae Compositae Sinica,2006,23(2):143-149.
[12] Naik N K,Shrirao P.Composite structures under ballistic impact[J].Compos Struct,2004,66(1-4):579-590.
[13] Naik N K,Shrirao P,Reddy B C K.Ballistic impact behaviour of woven fabric composites:Formulation[J].Int J Impact Eng,2006,32(9):1521-1552.
[14] 古兴瑾,许希武,黄晶.层合复合材料薄板高速冲击损伤研究[J].南京航空航天大学学报,2008,40(3):370-375.Gu Xingjin,Xu Xiwu,Huang Jing.High velocity impact damage of thin composite laminates[J].Journal of Nanjing University of Aeronautics & Astronautics,2008,40(3):370-375.
[15] 张晓晴,杨桂通,黄小清.柱形平头弹体墩粗变形的理论分析J].华南理工大学学报:自然科学版,2005,33(1):32-36.Zhang Xiaoqing,Yang Guitong,Huang Xiaoqing.Theoretical analysis of the mushrooming deformation of flattened cylindrical projectile[J].Journal of South China University of Technology:Natural Science Edition,2005,33(1):32-36.
[16] 钱伟长.穿甲力学[M].北京:国防工业出版社,1984.Qian Weichang.Mechanics of perforation[M].Beijing:National Defense Industry Press,1984.
[17] Wen H M.Predicting the penetration and perforation of FRP laminates struck normally by projectiles with different nose shapes[J].ComposStruct,2000,49(3):321-329.
[18] Wen H M.Penetration and perforation of thick FRP laminates[J].Compos Sci Technol,2001,61(8):1163-1172.
[19] 胡昌明,贺红亮,胡时胜.45号钢的动态力学性能研究[J].爆炸与冲击,2003,23(2):188-192.Hu Changming,He Hongliang,Hu Shisheng.A study on dynamic mechanical behavior of 45 steel[J].Explosion and Shock Waves,2003,23(2):188-192.
[20] 李 伟.夹芯式船用装甲结构设计与性能研究[D].武汉:海军工程大学,2009.Li Wei.Study on the design and performance of warship's sandwich armor[D].Wuhan:Naval University of Engineering,2009.
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