酚醛树脂基纳米多孔材料的制备及结构调控

酚醛树脂基纳米多孔材料（Phenolic Resin-based Nanoporous Materials,PNM）是满足新一代航天飞行器轻质、高效隔热需求的新型热防护材料,传统制备方法中需使用超临界干燥技术,制备周期长、成本高。本研究通过两步法,即先合成线性酚醛树脂,再进行溶胶-凝胶的方法,实现了常压干燥PNM的制备。系统研究了固化剂含量、固化温度和固化时间对材料结构的影响和调控作用,分析了影响材料收缩率和热稳定性的因素。结果表明,PNM的微观纳米结构的变化会影响材料干燥后的收缩率,制备大颗粒、大孔径的微观结构更有利于降低材料的收缩率。而PNM的热稳定性主要受交联反应过程形成的化学结构的影响,通过优化固化剂的含量可提高PNM的热稳定性。当固化剂含量为10%,固化温度提高至150℃,固化时间延长至48 h的条件下,获得的PNM有最高的热稳定性（900℃下的残碳率为54.2%）、最发达的孔结构（比表面积为264.0 m²/g、孔容为2.67 cm³/g、平均孔径为40.0 nm）和最小的收缩率（0%）。此PNM制备方法简单、性能优异,在未来航天飞行器上有广阔的应用前景。     

Eliminating negative VTEC in global ionosphere maps using inequality-constrained least squares

Currently, ground-based Global Navigation Satellite System (GNSS) stations of the International GNSS Service (IGS) are distributed unevenly around the world. Most of them are located on the mainland, while only a small part of them are scattered on some islands in the oceans. As a consequence, many unreasonable zero values (in fact negative values) appear in Vertical Total Electron Content (VTEC) of European Space Agency (ESA) and Center for Orbit Determination in Europe (CODE) IONEX products, especially in 2008 and 2009 when the solar activities were rather quiet. To improve this situation, we directly implement non-negative physical constraints of ionosphere for global ionosphere maps (GIM) with spherical harmonic functions. Mathematically, we propose an inequality-constrained least squares method by imposing non-negative inequality constraints in the areas where negative VTEC values may occur to reconstruct GIM models. We then apply the new method to process the IGS data in 2008. The results have shown that the new algorithm efficiently eliminates the unwanted behavior of negative VTEC values, which could otherwise often be seen in the current CODE and ESA GIM products in both middle and high latitude areas of the Southern Hemisphere (45°S∼90°S) and the Northern Hemisphere (50°N∼90°N). About 64% of GPS receivers’ DCBs have been significantly improved. Finally, we compare the GIM results between with and without the inequality constraints, which has clearly shown that the GIM result with inequality constraints is significantly better than that without the inequality constraints. The inequality-constrained GIM result is also highly consistent with the final IGS products in terms of root mean squared (RMS) and mean VTEC.     

基于GMF方法的捕风一号风速反演分析

全球尺度高时空分辨率海面风场探测是当前全球气象研究及预报预测领域的关注热点之一,传统海面风场探测技术存在测量区域有限,且受天气环境限制明显等问题.基于全球导航卫星系统-反射(GNSS-R)测量技术风速反演原理,以捕风一号1级数据产品为输入,欧洲中期天气预报中心再分析风速数据为参考风速,采用地球物理模型函数(GMF)方法...     

一种简单有效的层合板壳单元

本文通过修正普通四边形单元的横向剪切应变能而得到了一种新的四边形四节点壳单元(本文称之为L_3单元)。该单元每个节点有五个自由度,适用于各向同性、正交异性和层合板壳的线性、非线性及稳定性有限元分析。文中给出了各种类型板壳结构的算例。数值结果表明,该单元不仅公式简单、自由度少,而且具有令人满意的精度和收敛特性。     

A review of topology optimization for additive manufacturing: Status and challenges

Topology optimization was developed as an advanced structural design methodology to generate innovative lightweight and high-performance configurations that are difficult to obtain with conventional ideas. Additive manufacturing is an advanced manufacturing technique building as-designed structures via layer-by-layer joining material, providing an alternative pattern for complex components. The integration of topology optimization and additive manufacturing can make the most of their advantages and potentials, and has wide application prospects in modern manufacturing. This article reviews the main content and applications of the research on the integration of topology optimization and additive manufacturing in recent years, including multi-scale or hierarchical structural optimization design and topology optimization considering additive manufacturing constraints. Meanwhile, some challenges of structural design approaches for additive manufacturing are discussed, such as the performance characterization and scale effects of additively manufactured lattice structures, the anisotropy and fatigue performance of additively manufactured material, and additively manufactured functionally graded material issues, etc. It is shown that in the research of topology optimization for additive manufacturing, the integration of material, structure, process and performance is important to pursue high-performance, multi-functional and lightweight production. This article provides a reference for further related research and aerospace applications.     

绿色技术创新对企业成长绩效的影响——基于研发投入强度的调节作用

随着我国经济的高速发展,生态问题日渐凸显.通过技术创新处理好经济发展和生态效益的关系成为实现绿色发展的内在要求.本文利用94家创业板制造业上市公司2014-2017年的数据,采用广义最小二乘法对绿色技术创新、研发投入强度与企业成长绩效之间的关系进行实证分析,探讨了绿色技术创新对企业成长绩效的直接影响,并对研发投入强度的...     

视觉测振技术在柔性太阳翼模态试验中的应用

针对8 m×5 m的柔性太阳翼在倒立状态下进行模态试验,设计数字摄像视觉测振系统,基于图像特征跟踪法实现了从相机标定、图像采集、信息提取到三维振动数据获取的过程,通过工况模态辨识方法获取了柔性太阳翼模态频率及振型等动力学参数。并考虑空气和重力影响建立太阳翼有限元模型,通过与基于基恩士激光位移传感器的传统模态试验结果及仿真分析结果进行对比,验证了基于视觉测振工况模态试验方法的准确性,为柔性太阳翼在轨模态辨识奠定基础。     

基于学习自动机的雷达干扰资源分配研究

综合考虑干扰机干扰频率、干扰功率、干扰时机和干扰样式等干扰效果评估指标,构建干扰效益矩阵,建立目标函数,构建干扰资源分配博弈模型,并基于学习自动机原理提出了分布式干扰资源分配算法,求解出干扰分配决策。仿真结果表明,提出的分布式干扰资源分配算法能以很低的复杂度来获得很好的干扰性能,有效地解决了干扰资源分配问题,对实际作战指挥有一定的指导意义。     

遥测天线升降机构谐振频率测试方法的研究

研究设计一套遥测天线升降机构谐振频率的测试方法。经测试,遥测天线升降机构不会与天线发生共振,遥测天线谐振频率约为18Hz,升降机构垂直方向的最低谐振频率为12.82Hz,侧向方向的最低谐振频率为25.64Hz,前后方向的最低谐振频率为38.46Hz。