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1)  ceramic matrix armor
陶瓷基装甲
1.
Criterion of anti-ballistic properties of ceramic matrix armor has been introduced, and the bullet-target impacting process has divided and discussed.
陶瓷基装甲的特点出发,介绍了其抗弹性能的评定指标,讨论了弹靶撞击过程的划分,重 点评述了抗弹机理的研究方法和陶瓷基装甲的耗能机制;并总结了影响陶瓷基装甲抗枪弹性能的4个主要 因素:陶瓷厚度、约束条件、弹丸形状和撞击速度。
2)  armor ceramic
装甲陶瓷
1.
DOP experimental study on EFP penetrating Al_(2)O_(3) armor ceramic;
爆炸成型弹丸对Al_2O_3装甲陶瓷材料的侵彻实验研究
3)  ceramic armor
陶瓷装甲
1.
This paper discusses effects of phenolic resin as sintering additives and binder of spray granulation on pressureless sintering of SiC ceramic armor.
探讨酚醛树脂作为喷雾造粒的粘结剂和烧结的添加剂对制备无压烧结SiC陶瓷装甲的影响。
4)  ceramic composite armor
陶瓷复合装甲
1.
Due to the great differences in the mechanical characteristics of the materials that compose ceramic composite armor,it is very difficult to machine.
因组成材料的性能相差迥异,陶瓷复合装甲的加工十分困难。
2.
The principles implied in the process of EFP(explosively formed projectile) impacting the plate covered explosive and the ceramic composite armor have provided the evidence for calculating the residual velocity of EFP(explosive formed projectile) impacting a new integrated armor,and a calculation model has been induced.
根据平板装药和陶瓷复合装甲与爆炸成型弹丸(EFP)相互作用的原理,提出了新型集成装甲与EFP作用的计算模型;据此模型进行了EFP残余速度计算,证明了在相同面密度的新型集成装甲和陶瓷复合装甲防护下,EFP的残余速度有明显差异;根据该计算模型可进行集成装甲的优化和EFP的反装甲目标设计。
3.
The aim of this study was to determine contributions of different interfaces between ceramic and back plate to balli-stic performance of ceramic composite armor impacted by 12.
7mm穿燃弹对几种不同背板的陶瓷复合装甲进行了实弹射击试验,以研究复合装甲中陶瓷与背板组成的界面对其抗枪弹性能的影响。
5)  ceramic/composite amour
陶瓷/金属梯度复合装甲
6)  ceramic-metal composite armor
陶瓷-金属复合装甲
1.
Traditional ceramic-metal composite armor is simple double-layer system composed of ceramic and metal,in which ceramic and metal act as correspondingly impact face layer and energy-absorbing backup layer.
传统的陶瓷-金属复合装甲为简单的双层结构,其中陶瓷作为迎弹面板,金属作为能量吸收背板,这种结构的明显不足是其抗多发弹能力差。
2.
To further improve the hit capability of traditional ceramic-metal composite armor,an effective method of constituting metal-encapsulating ceramic composite armor by encapsulating the ceramic inside metal was proposed.
为进一步提高传统的陶瓷-金属复合装甲的抗弹性能,将陶瓷用金属封装起来组成金属封装陶瓷复合装甲,对传统的层叠结构和金属封装陶瓷的抗侵彻性能进行了数值仿真和理论分析。
补充资料:电解质陶瓷(见快离子导体陶瓷)


电解质陶瓷(见快离子导体陶瓷)
electrolyte ceramics

电解质陶瓷electrolyte陶瓷。Cera』n1CS即快离子导体
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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