Design and application of solar sailing: A review on key technologies

Solar sail technology has been proposed and developed for space explorations with advantages of low launch cost, no-propellant consumption, and continuous thrust, which has great potentials in earth polar detection, interstellar explorations and etc. The development of solar sail has made significant progress in structural design, manufacturing, materials, orbit transfer, and stability control in the past few decades, which makes meaningful contributions to astronomy, physics, and aerospace science. Technological breakthroughs of Solar Radiation Pressure (SRP) propulsion and interstellar transfer have been achieved in current solar sail missions. However, there are still many challenges and problems need to be solved. This paper attempts to summarize the research schemes and potential applications of solar sailing in space missions from the viewpoint of key technologies, so as to provide an overall perspective for researchers in this field. Analyses of the key technologies of solar sailing system design are provided. Finally, challenges and prospective development of solar sailing are discussed.     

航天器可展开薄膜遮光罩机械设计的发展与展望

从可展开薄膜遮光罩的几何构型、展开驱动技术、薄膜折痕设计和薄膜褶皱动力学分析四个方面论述了航天器可展开薄膜遮光罩机械设计的发展现状和特点，在分析比较的基础上对可展开薄膜遮光罩机械设计的发展趋势进行了展望，旨在为航天器可展开薄膜遮光罩的创新发展提供参考。     

Deployment of SMP Miura-ori sheet and its application: Aerodynamic drag and RCS reduction

Origami, such as Miura-ori, is the art of folding two-dimensional materials into complex, elaborate, and multifunctional three-dimensional objects. In this paper, SMP MO sheet are prepared, and the accuracy of deployable process is verified by experiments. The folding and deployable process of SMP MO sheet is divided into 4 stages, and each stage is described in detail. The stiffness of smart deployable stage is characterized by an exponential decline at the beginning and a gradual decrease to 0, and this is similar to the theoretical shear equivalent modulus in the Y direction. The effects of various parameters on strain and stress are also explored. The purpose of studying these mechanical characteristics is to provide driving force reference in application; In terms of application, the flow field and electromagnetic characteristics of MO sheet in different directions are studied. The aerodynamic drag and RCS reduction of MO unit cell and graded MO sheet during the deployable process are evaluated. When the dihedral fold angle is about 45°, the RCS reduction and drag reduction characteristics of MO sheet are relatively optimal, which is most beneficial to morphing aircraft.     

天梯动力学与控制研究进展

简要介绍了天梯系统的组成和初始部署形式。在此基础上，针对天梯初始部署和运行中存在的复杂动力学与控制问题，分别从天梯动力学建模、天梯稳定性、天梯绳索振荡、攀爬器运动引起的绳索振荡及振荡抑制、天梯初始部署动力学五个方面分析归纳了天梯动力学与控制的发展状况，最后对天梯动力学与控制的发展方向进行了总结及展望。