硝基立方烷及其氮杂衍生物的能量特性计算研究

硝基立方烷及其氮杂衍生物是高能量密度材料的重要目标化合物类型之一。据此详细计算分析了硝基立方烷（从二硝基到八硝基立方烷）和四硝基四氮的杂立方烷分别在产单元推进剂，ＨＴＰＢ／Ａｌ，ＰＥＧ／ＮＧ／Ａｌ，ＧＡＰ／ＮＧ／Ａｌ体系中的能量特性。结果表明，硝基取代数大于４的立方烷和四硝基四氮杂立方烷的能量特性明显优于ＨＭＸ。     

Sound insulation performance of plates with interconnected distributed piezoelectric patches

This paper deals with the sound insulation performance of a thin plate with intercon-nected distributed piezoelectric patches. Piezoelectric patches are periodically bonded on the sur-faces of the plate in a collocated fashion, and are interconnected via an inductive circuit network. This piezoelectric system is termed as piezo-electromechanical (PEM) plate in the paper. Homogenization methods are involved under a sub-wavelength assumption to analytically develop the dynamical equations for the PEM plate. The dispersion relationships and energy densities of the wave modes propagating in the PEM plate are studied;the sub-wavelength assumption is verified for the simulations in this paper. The coincidence frequency of the PEM plate is researched, and results show that the coincidence frequency of the PEM plate will disappear at certain circum-stances;mathematical and physical explanations are made for this phenomenon. The disappearance of the coincidence frequency is used to optimize the value of inductance, for the purpose of improv-ing the sound transmission loss of the PEM plate.     

航空航天智能材料与智能结构研究进展

智能材料作为新兴多功能材料,能够实现结构功能化、功能多样化。智能结构是在结构中集成智能材料作为传感器和驱动器,使结构除了具有承载、传力、连接等功能外,还具有自感知、自诊断、自驱动、自修复等能力,以更好地适应外界环境的变化,可显著提升航空航天架构的性能。目前智能材料与智能结构已成为航空航天架构减重增效研究的重点。根据国内外智能材料和结构的研究进展,综述了压电材料、铁磁材料、形状记忆材料、智能复合材料等智能材料的发展;讨论了智能结构的研究及应用前景,包括自诊断智能结构、自修复智能结构和减振降噪智能结构;最后,指出了智能材料与结构当前面临的一些挑战性问题,展望了其在航空航天领域的应用前景。     

基于小波包变换及相关系数法的复合材料层合板冲击位置识别研究

复合材料较为广泛应用于航空、航天等工程领域,但对冲击载荷十分敏感。因此,对复合材料结构承受的冲击载荷进行在线监测以及冲击位置的实时识别具有重要意义。文章以复合材料层合板为研究对象,基于两个冲击位置的距离越靠近则接收到信号幅频特性相似度越高的特点,采用FBG光纤光栅传感器,通过小波包变换的方法来提取能量特征向量,同时结合相关系数法来实现复合材料层合板的冲击位置识别。在480 mm×480 mm的复合材料层合板上开展冲击实验,8次实验皆完成了冲击位置识别,其中7个点距离误差为0 mm,实现精准识别,另一个点误差在6%以内。     

环模设备研制用玻璃钢的放气性能研究

文章介绍了在环模设备研制中采用玻璃钢材料制作真空容器的发展需求,为满足设计要求,对玻璃钢复合材料的放气性能进行研究。文中阐述了材料的放气机理和不同测试方法,以及对材料样品的放气性能的测试过程,并获得了重要数据。这项研究工作为真空系统设计提供了参考依据,也为非金属材料环模设备研制提供了思路。     

航天器密封舱湿度控制技术综述

主要介绍了国内外航天器湿度控制技术的发展现状和应用情况。其中包括吸湿材料、可再生除湿装置和调湿涂层等被动湿度控制技术与冷凝干燥器、主动湿度控制技术,最后总结得出了航天器湿度控制技术发展方向。     

Protecting Earth-orbiting spacecraft against micro-meteoroid/orbital debris impact damage using composite structural systems and materials: An overview

Spacecraft that are launched to operate in Earth orbit are susceptible to impacts by meteoroids and pieces of orbital debris (MMOD). The effect of a MMOD particle impact on a spacecraft depends on where the impact occurs, the size, composition, and speed of the impacting object, the function of the impacted system. In order to perform a risk analysis for a particular spacecraft under a specific mission profile, it is important to know whether or not the impacting particle (or its remnants) will exit the rear of an impacted spacecraft wall. A variety of different ballistic limit equations (BLEs) have been developed for many different types of structural wall configurations. BLEs can be used to optimize the design of spacecraft wall parameters so that the resulting configuration is able to withstand the anticipated variety of on-orbit high-speed impact scenarios. While the level of effort exerted in studying the response of metallic multi-wall systems to high speed particle impact is quite substantial, the extent of the effort to study composite material and composite structural systems under similar impact conditions has been much more limited. This paper presents an overview of the activities performed to assess the resiliency of composite structures and materials under high speed projectile impact. The activities reviewed will be those that have been aimed at increasing the level of protection afforded to spacecraft operating in the MMOD environment, and more specifically, on those activities performed to mitigate the mechanical and structural effects of an MMOD impact.     

数字化组合式大力值校准系统的研制

为了满足对大力值(20 MN左右)的测量和校准,开发了一套数字化组合式大力值校准装置。其最大量程可达24 MN,系统测量准确度为0.1%,适合于大型材料试验机的校准和检定。本文详细介绍了装置的组成结构、弹性体设计、贴片和组桥方式、数字化的方法以及与计算机的通信实现。     

多孔介质隔热材料中的辐射热传递分析

新型的多孔材料以其重量轻、强度高备受航天工程设计人员的亲睐,尤其是作为隔热材料使用,可以说是航天工程热防护系统的热门材料.多孔介质在辐射热传递方面具有吸收发射和散射的功能,这些功能在其接受外来热流的作用下,于内部达到热能量平衡,求解这一平衡方程就可以求出辐射热流在材料中的分布.由于求解这一方程的困难,许多学者对材料特性...     

利用气动式溜车—管路系统实现散状物料的输送

气动式溜车－管路系统是近年来兴起的一种高效的中，长距，离输送装置，它克服了常规运输系统运费高，噪声大和污染环境的缺点，在工程上有着良好的应用前景。本文对该系统的原理和原理和结构进行了较为细致的分析，并介绍了一个应用实例。