Event-triggered and consensus-based attitude tracking alignment for discrete-time multiple spacecraft system exploiting interference

This paper presents a discrete-time attitude control strategy with equi-global practical stabilizability for aligning the attitude of multiple spacecraft to a predesigned configuration according to a time-variant reference. By utilizing the interference of the wireless channel, the communication scheme designed in this paper can save communication resources, amount of computation, and energy proportionally to the number of spacecraft. The exact discrete-time model and approximate discrete-time model of the consensus-based spacecraft tracking system are given. Then the framework for the design of an event-triggered control scheme for the exact discrete-time system via its approximate models is developed, which avoids the periodic actuation, and Zeno behavior is proved to be excluded. Furthermore, the control scheme can handle the presence of the unknown fading channel. Finally, simulation results are presented to demonstrate the effectiveness of the control strategy.     

环氧树脂改性交联剂的制备及其对室温硫化硅橡胶性能的影响

力学性能差是制约室温硫化硅橡胶应用发展的主要因素，而交联剂结构对力学性能有重要影响。为提高室温硫化硅橡胶的力学性能，本文以环氧树脂E-44与氨丙基三烷氧基硅烷为原料通过开环反应合成了一种改性交联剂（E44-APS），通过红外光谱、核磁氢谱确定了E44-APS的结构，并研究了E44-APS交联剂对室温硫化硅橡胶拉伸性能、固化性能、接触角、表面形貌、热稳定性的影响。结果表明，随E44-APS含量增加，室温硫化硅橡胶的拉伸强度先增加后降低，当E44-APS用量为10% 时，拉伸强度和断裂伸长率最大可达0.47 MPa和306%；固化时间随E44-APS用量增加而增加；5%热失重温度随E44-APS用量增加而降低；接触角随E44-APS用量增加先降低后增加。上述结果表明E44-APS可有效提高室温硫化硅橡胶的力学性能，同时会带来一些负面影响，如固化时间延长和热稳定性下降及疏水性下降等。     

空间级硅橡胶胶黏剂粘结界面改性分析

针对空间级硅橡胶与聚酰亚胺的粘结界面呈现低表面能、粘结可靠性差的现状，利用有机硅烷的润湿和键结作用对界面进行预处理，改善其粘结强度。通过FTIR、¹H-NMR和GC-MS分析，有机硅烷的主要成分中对粘结性能影响较大的是正硅酸丁酯和丙基三甲基硅氧烷，采用两种偶联剂对聚合物表面进行预处理，在聚合物间不同均相结构层通过硅烷相互扩散和互穿网络形成的分子桥可实现致密交联。力学试验表明，经有机硅烷对待粘结界面表面预处理，粘结构件的剪切强度值可达0.65 MPa；选择适当的有机硅烷作为附着力促进剂，利用其有机官能团、成膜性和交联性可提高粘结构件的可靠性。     

复合材料成型工艺仿真技术

通过计算机模拟RTM冲模过程来确定工艺设计方案和工艺参数;通过固化仿真来优化固化工艺曲线.结果表明:数值模拟技术为复合材料成型工艺优化提供了可行方法.