陶瓷基复合装甲防12.7mm穿甲燃烧弹的靶试研究（Ⅰ）

基于对材料特性和防弹机理的认识,设计了由Al2O3陶瓷、616装甲钢和高强PE材料构成的陶瓷基复合装甲板,并用现役127.mm穿甲燃烧弹进行靶试考核,检验靶板设计思路,结果表明：防护面密度为128 kg/m2的靶板可防住该弹。     

切向空气气流对激光辐照碳纤维复合材料的影响

实验研究了靶材表面存在和不存在切向空气气流时,975nm连续激光对碳纤维增强树脂基复合材料的辐照效应,发现切向气流的加载有利于激光对碳纤维复合材料的破坏.从理论上对激光辐照下碳纤维复合材料的破坏机理进行了初步分析,基于碳的氧化特性和氧化反应机理,推导了碳纤维的氧化速率方程.采用改进的光滑粒子方法,对激光辐照下复合材料树...     

复合推进剂中硝酸铵的改性研究

在分析硝酸铵的多晶现象和吸湿特性的基础上 ,探讨了硝酸铵的改性技术。采用热分析法研究了无机添加剂对硝酸铵晶型转变的影响 ,并用高分子表面处理剂对硝酸铵进行表面处理。结果表明 ,这种方法可以有效地改善硝酸铵的晶体结构和吸湿特性 ,为硝酸铵在复合推进剂中的应用提供了实验和理论依据。     

子母式穿甲弹子弹发射过程研究

对子母式穿甲弹子弹的发射过程进行详细的分析,得出了子弹长度与子弹飞离母弹速度的关系、子弹长度与火药燃烧率的关系、子弹长度与母弹弹头部发射孔内最大压力的关系以及子弹的长度与子弹发射所需时间的关系,为子母式穿甲弹设计提供了依据。     

陶瓷基装甲抗枪弹机理研究现状

从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.     

计及开关抖动特性的低压复合开关仿真分析

为了改进复合开关特性,准确评估复合开关中电力电子器件的发热水平,以低压复合开关为研究对象,建立了开关的抖动仿真模型,并在此基础上分析了负载条件下复合开关中双向可控硅本身及其考虑底板散热影响后的温升特性.通过加入散热片,大大减少了复合开关的发热量.研究结果为可靠地控制复合开关、延长其寿命提供了条件,并为进一步开发多路集成...     

横向运动板干扰聚能射流的数值模拟

基于有限元分析软件ANSYS/LS-DYNA和LS-PREPOST,用ALE算法对射流垂直侵彻横向运动防护板的过程进行模拟分析。防护板在不同速度下干扰射流时,对防护板和后效板上的开坑形状进行分析,并计算后效板上的最终侵深及射流轴线上的速度降,得到射流在横向防护板作用下后效板侵深及射流轴线上的速度降随防护板速度变化的曲线。结果表明,防护板抗射流侵彻能力随防护板速度的增加而增强,尤其是防护板横向速度在0～100m/s增加时,抗射流侵彻能力增强较为明显。     

Damage mechanics and energy absorption capabilities of naturalfiber reinforced elastomeric based bio composite for sacrificial structural applications

The present study deals with the experimental, finite element (FE) and analytical assessment of low ballistic impact response of proposedflexible'green' composite make use of naturally available jute and rubber as the constituents of the composite with stacking sequences namely jute/rubber/jute (JRJ), jute/rubber/rubber/jute (JRRJ) and jute/rubber/jute/rubber/jute (JRJRJ). Ballistic impact tests were carried out by firing a conical projectile using a gas gun apparatus at lower range of ballistic impact regime. The ballistic impact response of the proposed flexible composites are assesses based on energy absorption and damage mechanism. Results revealed that inclusion of natural rubber aids in better energy ab-sorption and mitigating the failure of the proposed composite. Among the three different stacking se-quences of flexible composites considered, JRJRJ provides better ballistic performance compared to its counterparts. The damage study reveals that the main mechanism of failure involved in flexible com-posites is matrix tearing as opposed to matrix cracking in stiff composites indicating that the proposedflexible composites are free from catastrophic failure. Results obtained from experimental, FE and analytical approach pertaining to energy absorption and damage mechanism agree well with each other. The proposed flexible composites due to their exhibited energy absorption capabilities and damage mechanism are best suited as claddings for structural application subjected to impact with an aim of protecting the main structural component from being failed catastrophically.     

Chain damage effects of multi-spaced plates by reactive jet impact

Chain damage is a new phenomenon that occurs when a reactive jet impacts and penetrates multi-spaced plates.The reactive jet produces mechanical perforations on the spaced plates by its kinetic energy(KE),and then results in unusual chain rupturing effects and excessive structural damage on the spaced plates by its deflagration reaction.In the present study,the chain damage behavior is initially demonstrated by experiments.The reactive liners,composed of 26 wt％Al and 74 wt％PTFE,are fabricated through a pressing and sintering process.Three reactive liner thicknesses of 0.08 CD,0.10 CD and 0.12 CD(charge diameter)are chosen to carry out the chain damage experiments.The results show a chain rupturing phenomenon caused by reactive jet.The constant reaction delay time and the different penetration velocities of reactive jets from liners with different thicknesses result in the variation of the deflagration position,which consequently determines the number of ruptured plates behind the armor.Then,the finite-element code AUTODYN-3D has been used to simulate the kinetic energy only-induced rupturing effects on plates,based on the mechanism of behind armor debris(BAD).The significant discrepancies between simulations and experiments indicate that one enhanced damage mechanism,the behind armor blast(BAB),has acted on the ruptured plates.Finally,a theoretical model is used to consider the BAB-induced enhancement,and the analysis shows that the rupturing area on aluminum plates depends strongly upon the KE only-induced pre-perforations,the mass of reactive materials,and the thickness of plates.     

金属膜陶瓷膜净水技术试验研究

试验研究了金属膜陶瓷膜净水的主要影响因素及变化规律,提出了用金属膜陶瓷膜净水工艺替代传统的加药混凝、沉淀过滤净水工艺的水处理系统。重点研究了不同种类金属膜对浊度物质的去除、膜压差及膜渗透通量随时间的变化规律;陶瓷微滤膜渗透通量、出水浊度随时间的变化规律及在不同膜压差、不同进口流量的情况下膜渗透通量随时间的变化规律。试验表明了金属膜陶瓷膜具有良好的过滤性能。