弹载面源红外诱饵技术分析

针对反舰导弹突防面临红外成像末制导拦截导弹威胁,提出一种基于面源红外诱饵的弹载红外干扰技术,介绍弹载面源红外诱饵技术原理和特点,分析弹载面源红外诱饵设计关键技术及应用形式,对提高反舰导弹突防能力具有借鉴作用.     

基于博弈论的顶岗实习策略分析

顶岗实习是工学结合的重要形式,以博弈论的角度,顶岗实习方案决策是职业院校与企业的博弈过程,且主要为二人零和完全信息静态博弈;建立了博弈模型,给出了纳什均衡,确定了可行策略的条件;提出了对不同企业类型的策略设计要点。     

无人机用燃料电池阴极供气系统建模与控制

燃料电池因其高效、无污染、噪声小等特点,被认为是未来最具有潜力的无人机（UAV）用动力源,燃料电池阴极供气系统的控制技术是决定燃料电池系统性能和可靠性的关键。针对无人机用质子交换膜燃料电池（PEMFC）阴极供气系统,首先,考虑外界温度、压力、空气密度以及雷诺数等随高度变化的参数,建立了跨高度离心空压机模型并分析了其在不同高度下的工作特性,基于无刷直流电机反电势特征构建了高速空压机驱动电机模型。其次,通过计算燃料电池阴极氧气和氮气的动态分压获取了PEMFC电堆输出电压。设计了基于分数阶PI^λD^μ的过氧比和阴极气压控制方法,驱动电机采用有限集模型预测控制（MPC）实现快速的转矩响应,仿真结果表明设计的控制器可在无人机跨高度运行条件下实现过氧比的快速调节,同时维持阴极气压稳定,满足燃料电池阴极供气需求。     

基于Kalman滤波的GPS/INS接收机自适应干扰抑制方法

 考虑到惯导信息辅助GPS(GPS/INS)接收机对干扰抑制实时性的要求,提出一种基于Kalman滤波的GPS/INS接收机自适应干扰抑制方法。自适应广义旁瓣相消(GSC)多采用低复杂度最小均方(LMS)算法更新权矢量,收敛速率较低,严重时会导致接收机定位中断。首先利用Householder变换构建GSC下支路的阻塞矩阵,用于阻塞任意二维阵型阵列接收的期望信号;再用Kalman滤波自适应更新下支路权矢量,从而有效提高阵列输出信干噪比(SINR)。理论分析和仿真结果说明本文方法可有效抑制干扰对接收机的影响,且具有实时性高的特点。     

积垢对压气机流场影响的数值分析

以某型轴流压气机为研究对象,对不同积垢程度的压气机流场进行了三维的CFD数值计算,对比分析积垢造成压气机性能损失的机理。结果表明：积垢对压气机流场的影响主要是导致叶片吸力面中部压力梯度比较大的区域附面层提前转捩,扩大尾迹区的低速回流区,增加叶栅的流动损失。     

Investigation on Thermal and Dimensional Stability of Epoxy Resin In-Situ Modified by Cyanate Ester Resin and Polydimethylsiloxane

The thermal and dimensional stability of epoxy resin (EP) in-situ modified by cyanate ester (CE) and polydimethylsiloxane (PDMS) are investigated by means of experiments and numerical simulation. Thermal gravimetric analysis (TGA) and differential scanning calorimeter (DSC) are used to analyze the heat resistance of the modified EP. The dimensional stability is characterized by the volume shrinkage of the series PDMS/CE/EP obtained by the density method. The chemical structure of the PDMS/CE/EP is analyzed by Fourier transform infrared spectroscopy (FTIR). The results of TGA and DSC indicate that the thermal stability of PDMS/CE/EP decreases firstly and then increases with the increase in the amount of CE. The addition of PDMS shows a slight effect on the thermal stability. The 40% CE makes the blending system exhibit the lowest initial decomposition temperature, which reduces by 15.5% and 40.8% compared with pure EP and CE, respectively. The FTIR results suggested that the influence of CE on the thermal stability of the modified EP is mainly ascribed to the generation of oxazolidinone ring with low thermal stability and the increase in the triazine ring with high thermal stability. The volume shrinkage measurement results show that the introduction of CE and PDMS are both beneficial to the improvement of the dimensional stability of the blending systems. The in-situ addition of 80% CE shows the lowest volume shrinkage of 6.11%. The thermal stress distribution of PDMS/CE/EP generated during the solidification process is simulated by the finite element analysis. The results suggested that the introduction of 80% CE into EP results in the lowest thermal stress in the blending system, which indicates that the system has the lowest volume shrinkage, which agrees well with the experimental results.     

液相炭化致密叠层针刺C/C材料的制备及性能

为了研究C/C材料快速致密的工艺,采用常压炭化和高压炭化联合致密的纯沥青液相炭化工艺,对叠层针刺C/C材料进行致密化处理,使预制体密度由 0.48 g/cm3增至 1.92 g/cm3,对该材料的力学及热学性能进行了测试,与整体毡C/C材料性能进行了对比,并利用扫描电子显微镜观察了材料的显微结构.结果表明,该材料具有较好的力学与热学性能,微观结构界面结合良好.     

树脂基导电纳米复合材料电磁屏蔽性能的研究进展

随着5G时代的来临,电磁污染问题日益严重。电磁屏蔽是解决电磁污染的有效方法,已成为人们关注的热点。导电纳米粒子具有优异的导电性及其独特物理特性,其树脂基复合材料可作为轻质高电磁屏蔽效能的电磁屏蔽材料。本文主要介绍了含有导电一维纳米粒子（碳纳米管、银纳米线）和二维纳米粒子（石墨烯、MXenes）的树脂基复合材料在电磁屏蔽性能方面的研究进展,进一步对其发展趋势进行了展望。     

角加速度反馈在再入段控制中的应用

针对再入飞行器滚动通道产生较大的滚动角及滚动角速率,给出了一种能够有效地减小滚动角和滚动角速率的方法。该方法引入滚动角加速度信号反馈,并采用逆系统方法设计控制器。数学仿真结果表明,引入角加速度信号后,通过对干扰力矩的补偿,可以很大程度上减小再入飞行器的滚动角和滚动角速率,滚动角可以稳定在±5°范围以内。该方法将有利于减弱通道之间的耦合,提高再入飞行器再入段控制的精度。