3D打印技术在空间站梦天实验舱上的应用

面对梦天实验舱次结构减重需求，提出了面向3D打印技术的次结构拓扑优化设计的方法，完成并掌握了3D打印次结构从设计、工艺、制造、检验等全周期的研制流程。在梦天实验舱发射载荷条件下，通过结构有限元分析及试验验证，对3D打印次结构性能进行了考核。结果表明:在具有一定强度和刚度裕度的前提下，支架减重效果较为明显，面向3D打印技术的次结构拓扑优化设计的方法具有广阔的工程应用前景。     

航空航天结构轻量化设计制造技术发展现状与挑战

轻量化技术是指在满足结构性能需求的前提下，通过对材料、结构和制造工艺等方面的优化，减少结构质量的技术，已经成为新一代航空航天装备发展的关键技术之一。本文首先分析了轻量化技术的发展历程。其次，从设计原理、组成方式和优化方法角度，介绍了仿生结构设计、胞元结构设计和高效拓扑优化设计三类轻量化设计方法。然后，从轻量化制造工艺和模式的角度阐述了增材制造、协同制造和复合材料制造在航空航天结构轻量化制造中的应用。最后，讨论了轻量化技术面临的挑战和未来的发展。     

SiO2气凝胶骨架增强改性研究进展

分析SiO_2气凝胶骨架增强改性的特点,阐述了共前驱体、化学添加剂、老化、表面改性和热处理工艺在SiO_2气凝胶骨架增强方面的国内外研究动态和未来发展趋势,以期为设计并优化SiO_2气凝胶的微结构及性能提供理论依据和方法。     

Collaborative optimization design of process parameter and structural topology for laser additive manufacturing

High-resolution laser additive manufacturing (LAM) significantly releases design freedom, promoting the development of topology optimization (TO) and advancing structural design methods. In order to fully take advantage of voxelated forming methods and establish the quantitative relationship between the mechanical properties of printing components and multiple process factors (laser- and process- parameters), the concurrent optimization design method based on LAM should cover the process-performance relationship. This study proposes a novel artificial intelligence-facilitated TO method for LAM to concurrently design microscale material property and macroscale structural topology of 3D components by adopting heuristic and gradient-based algorithms. The process–structure–property relationship of selective laser sintering is established by the back propagation neural network, and it is integrated into the TO algorithm for providing a systematic design scheme of structural topology and process parameter. Compared with the classical optimization method, numerical examples show that this method is able to improve the mechanical performance of the macrostructure significantly. In addition, the collaborative design method is able to be widely applied for complex functional part design and optimization, as well as case studies on artificial intelligence-facilitated product evaluation.     

激光熔化沉积15-5PH沉淀硬化不锈钢组织及拉伸性能

利用激光熔化沉积技术制备15-5PH沉淀硬化不锈钢板,利用金相显微镜(OM)、扫描电镜(SEM)、透射电镜(TEM)、电子探针(EPMA)技术,对沉积态组织进行分析,测试沉积态组织的室温拉伸性能。结果表明:激光熔化沉积15-5PH不锈钢沉积态组织由沿沉积增高方向贯穿多层外延生长的柱状晶组成,柱状晶内包含多个细长整齐排列的胞状树枝晶,枝晶内为马氏体组织,枝晶间为铁素体;沉积态组织中弥散分布大量细小的NbC析出相,尺寸12～20 nm;15-5PH不锈钢沉积态组织具有良好的力学性能,纵向抗拉强度和延伸率分别为1 128.5 MPa和14.0%,横向抗拉强度和延伸率分别为1 101 MPa和12.25%。