TC4-DT钛合金线性摩擦焊接头组织特征及其形成机制

研究TC4-DT损伤容限型钛合金线性摩擦焊(linear friction welding,LFW)接头的组织特征及形成机制。利用光镜和扫描电镜对接头各区域微观组织进行表征,利用显微硬度计测试接头的显微硬度分布。结果表明:接头焊缝区(WZ)发生动态再结晶,焊接过程中WZ温度超过β转变点,焊后快冷的条件下发生了β→α′及β→α两种相变并析出了大量α′马氏体以及二次层片α;TC4-DT钛合金母材(BM)组织具有较高的变形抗力,使得接头形成的热力影响区(TMAZ)较窄。TMAZ内组织在强烈的热力耦合作用下拉长变形并破碎,焊后快冷的条件下析出少量α′马氏体及大量二次层片α;毗邻TMAZ的热影响区(HAZ)基本保留了BM不同位向的α集束的组织特征,但受热的影响α集束内α/β相界两侧元素相互扩散,层间β消耗,初生α长大;WZ组织的细晶强化和第二相强化,TMAZ组织的应变强化和第二相强化,以及HAZ内α相的长大使得接头上述区域显微硬度均高于BM。     

Robust optimal sliding mode control for the deployment of Coulomb spacecraft formation flying

Inter-spacecraft electrostatic force (Coulomb force) is desirable for close formation flying control because of its propellant-less and free contaminate characteristics attributed to the propellant exhaust emission. This paper presents robust optimal sliding mode control to deal with the problem of thruster saturation in tracking the formation trajectory for Coulomb spacecraft formation flying. The robust controller design is based on optimal control theory as a linear quadratic system, and it is augmented with an integral sliding mode control technique. The stability of the closed-loop system is guaranteed using the second Lyapunov method. The developed controller outperforms the existing ones, because it has a higher degree of fine-tuning to cope with the uncertainty. Numerical simulations are employed to confirm the efficiency of the developed controller.     

“田园一号”微推进系统设计与性能测试

针对“田园一号”微纳星编队飞行任务的技术需求，开展了微推进系统的总体设计。常规冷气推进由于其比冲低、贮存压力高、结构复杂，难以满足微纳卫星需求。选择R134a作为推进工质，通过将推进剂液化，减小系统体积。基于3D打印技术，设计贮箱、稳压罐、管路一体的推进系统。采用MEMS加工工艺，设计并研制出电加热喷口，从而提高系统比冲。分析了不同喷口尺寸、供气压力以及温度下所产生的推力和比冲大小，确定出喷口设计。表征测试所研制的电加热喷口，结果表明喷口加工误差控制在2%以内。真空条件下，采用扭摆测量系统测试推力器推进性能，测试结果表明，当稳压罐内气体压力在0.1～0.2 MPa变化时，推力大小为5～10 mN。当喷气温度从25℃升至95℃时，推进系统比冲可提升10%以上。