核壳式复合活性破片对间隔靶的毁伤效应OA
Study on the damage effect of core-shell composite reactive fragments on spaced targets
为提升氟聚物基活性破片的毁伤效率,拓展其应用范围,研制了一种"核壳"式复合结构活性破片,该破片采用湿混法,引入碳纤维增强基体材料的强度,采用特定的烧结条件,制备了PTFE/Al/CF钨粉和PTFE/Al/CF钨球2 种试样,并开展了相应的基本力学性能试验.通过 2 种结构破片侵彻 3 mm+3 mm+2 mm+2 mm多层间隔铝靶试验,采用Python自编的源程序对试验数据进行自动处理,获得了各层靶板的穿孔面积、变形体积以及反应光强总量,对比分析了不同速度和约束条件下多层间隔靶的毁伤特征差异.结果表明:"核壳"式破片侵彻能力更强,低速可穿透 4 层靶板,但穿孔面积较小,穿孔直径约为 0.95 倍破片直径;均质破片穿孔面积更大,但侵彻能力较弱,穿孔直径约为1.21 倍破片直径,高速条件下只能穿透 3 层靶板;钢壳约束显著提升了破片的穿孔和侵彻能力.破片的主要活性反应发生在与第2 层靶的撞击过程中,但其释能反应对穿孔效应的促进作用有限,毁伤特征差异主要取决于破片的力学特性.
To enhance the damage efficiency of fluoropolymer-based reactive fragments and broaden their application range,a novel core-shell composite structure active fragment has been proposed.To improve the strength of the matrix material,carbon fiber was introduced via a wet mixing method.Under specific sintering conditions,two types of samples were prepared:PTFE/Al/CF tungsten powder and PTFE/Al/CF tungsten ball.The basic mechanical properties of these samples were tested.The addition of tungsten powder was found to increase the dynamic compressive strength of the composite.Penetration tests were conducted on 3 mm+3 mm+2 mm+2 mm multi-layer interval aluminum targets using both types of fragments.The experimental data were automatically processed using a Python-based program,yielding the perforation area,deformation volume,and reaction light intensity for each layer of the target plate.The damage characteristics of the multi-interval target under different velocity and constraint conditions were compared and analyzed.The results show that the core-shell type fragment exhibits superior penetration ability.It can penetrate all four layers of the target plates at low speeds,although the perforation area is relatively small,with a perforation diameter approximately 0.95 times the fragment diameter.In contrast,the homogeneous fragment has a larger perforation area but weaker penetration ability.Its perforation diameter is about 1.21 times the fragment diameter,and it can only penetrate three layers of target plates at high speeds.The steel shell constraint significantly enhances the punching and penetration capabilities of the fragments.The primary active reaction of the fragment occurs during impact with the second layer of the target.The energy release reaction has a limited effect on improving the punching effect.The differences in damage characteristics are mainly attributed to the mechanical properties of the fragments.These findings provide valuable insights for the structural design and damage effect evaluation of reactive fragments.
薛建锋;赵旭峰;皮爱国;许红浩;原黎明;万斯奇
航空工业洪都 660 所,江西 南昌 330024中国兵器工业第 208 研究所,北京 102202北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081航空工业洪都 660 所,江西 南昌 330024航空工业洪都 660 所,江西 南昌 330024航空工业洪都 660 所,江西 南昌 330024
数理科学
爆炸力学核壳式复合活性破片间隔靶毁伤效应
mechanics of explosioncore-shell composite reactive fragmentspaced targetdamage effect
《爆炸与冲击》 2026 (1)
152-166,15
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