Numerical investigation on leakage and rotordynamic performance of the honeycomb seal with swirl-reverse rings

Honeycomb seals are a crucial component to restrict the leakage flow and improve system stability for the turbomachines and aero-engines. In this work, the leakage and rotordynamic performance of honeycomb seals with the Swirl-Reverse Ring(SRR) is predicted by employing the approach of Computational Fluid Dynamics(CFD) and the multifrequency whirling model theory.Numerical results show that the positive preswirl flow and circumferential velocity can be effectively weakened for the honeycomb seal...     

Collaborative force and shape control for large composite fuselage panels assembly

This study proposed a force and shape collaborative control method that combined method of influence coefficients(MIC) and the elitist nondominated sorting genetic algorithm(NSGA-II) to reduce the shape deviation caused by manufacturing errors, gravity deformation,and fixturing errors and improve the shape accuracy of the assembled large composite fuselage panel. This study used a multi-point flexible assembly system driven by hexapod parallel robots. The proposed method simultaneously considers...     

CFRP蜂窝夹层结构板埋件集群区域的热应力失效模式分析及补强设计

航天结构中,蜂窝板常采用在内部镶嵌埋件的方式使其与其他部件连接.为了分析CFRP蜂窝夹层结构板埋件集群区域面板在温度应力作用下失效的原因,进行了失稳破坏应力理论计算和数值分析,由分析结果发现是面板失稳导致了结构破坏.提出了加厚面板和局部加强两种补强方法并分析了其可行性和效率,通过对比发现局部补强的方法更加可行和高效.最...     

一种基于实测点云数据的壁板类零件修配加工路径计算方法

针对飞机壁板类零件采用修配法装配过程中需要精确获取修配加工路径的问题，提出一种基于实测点云数据的壁板类零件修配加工路径计算方法。首先设计一种基于法线差的特征点检测算法提取参考壁板的初始特征点。然后建立迭代收缩优化模型对初始特征点进行收缩优化，得到参考壁板的准确特征点。最后根据工装定位孔特征进行配准，将参考壁板的特征点映射到待修配壁板上，并将映射后的特征点按照一定顺序进行连接，得到待修配壁板的修配加工路径，按照修配路径进行加工，获得壁板装配配合边界。实验表明，该方法能够精确提取待修配壁板修配加工路径，并且经过加工验证，壁板试验件对缝间隙获得小于1.2 mm的实际效果。     

铝蜂窝夹层板热管区域平面度控制方法研究

主要研究蜂窝板热管区域局部平面度超差的原因及控制方法。经分析,蜂窝叠块的尺寸精度以及胶膜固化后的厚度不均匀性是导致超差的主要原因,通过提高工装均压板的厚度,利用胶膜厚度的自适应性弥补零部件尺寸累积偏差,提高平面度,并对新方法下产品剥离、剪切强度进行测试,结果表明,该工艺方法可以在不影响产品力学性能的前提下大幅改善产品热管区域平面度。     

穿孔泡沫夹层复合材料低速冲击性能试验研究

针对普通泡沫夹层复合材料层间性能较弱的问题，提出在泡沫上预先打孔的方法，在泡沫芯材中形成胶钉从而提高泡沫夹层材料的力学性能，并对穿孔泡沫夹层复合材料的低速冲击性能进行了研究。通过手糊和真空辅助成形工艺制备穿孔泡沫夹层复合材料试验件，对其进行不同能量的低速冲击试验，记录接触力、冲头位移和能量吸收率等力学响应，并采用目视检测和超声C扫无损检测两种方法确定冲击损伤的范围，探究胶钉密度、打孔深度和泡沫槽宽等变量对穿孔泡沫夹层复合材料低速冲击阻抗性能的影响。试验结果表明，随着冲击能量的增加，最大接触力、最大冲头位移和残余变形均增加，凹坑深度和内部损伤面积也增大，同时结构的能量吸收率也有所提高；适当地增加胶钉密度和泡沫槽宽能提高穿孔泡沫夹层材料的低速冲击阻抗性能，而泡沫孔深度对其冲击性能的影响较小。     

蜂窝增强低密度硅基烧蚀防热材料性能

高速再入飞行器通常采用烧蚀防热材料作为外表面大面积的热防护材料。本文对两种蜂窝增强低密度硅基烧蚀防热材料的力学性能、热物理性能和烧蚀性能进行了测试,并结合试验结果对烧蚀机理进行了研究分析。结果表明,材料的密度越高、拉伸强度就越高,但拉伸模量相近;两种材料的隔热性能参数都较低。两种材料在不同热流密度条件下的电弧风洞烧蚀后退速率都较低,在部分烧蚀条件下有轻微膨胀。两种材料的烧蚀背温都较低,烧蚀表面形貌良好,能满足设计指标要求,是一种适用范围较广的烧蚀防热材料。     

Review on residual stress and its effects on manufacturing of aluminium alloy structural panels with typical multi-processes

In the aerospace industry, integrated aluminium alloy plates and stiffened panels with high accuracy and performance attract significant interest. To manufacture these panels as integrity with high accuracy, multiple processes need to be utilised, such as machining, welding and forming. During the whole manufacturing chain, residual stresses can be generated and redistributed in the components among different processes. The residual stress would significantly affect the shapes and properties of the final products. Currently, these great effects are not well considered in the design and manufacturing processes. This paper aims to draw a general understanding of the residual stress generated in the pre-manufacturing processes and its effects on subsequent manufacturing processes. The mechanisms and distributions of residual stresses generated in typical pre-manufacturing processes of structural panels, including machining, welding and additive manufacturing (AM), are firstly summarised. The detailed effects of generated residual stresses on distortion and application properties in subsequent manufacturing processes are then concluded. In addition, current methods developed for the investigation of residual stress effect in multi-processes manufacturing are critically reviewed, including experimental, analytical, finite element (FE) and machine learning methods. Furthermore, the future development trend of methods for residual stress consideration and control in the design of manufacturing processes is summarised, providing comprehensive guidance to achieve the high accurate manufacturing of aluminium alloy structural components.     

卫星蜂窝夹层结构新型埋件工艺

针对卫星蜂窝夹层结构，研究了新型后埋件及其自动化后埋工艺，并与我国卫星领域传统后埋技术对比，考察了两种埋件技术对埋件承载力与承载系数的影响。结果表明，两种埋件系统承载模式基本一致，胶黏剂的分布状态对其承载性能有重要影响。新型后埋系统承载能力已经达到传统后埋系统的158.2%。新型后埋件技术更适合自动化方式，保证工艺稳定性一致性可靠性。     

复合材料整流罩声学等效建模与低频隔声性能研究

运载火箭发射过程中的恶劣噪声环境会导致整流罩内部电子设备失效。开展整流罩的内声场环境预测以及隔声分析,对其降噪研究和优化设计具有重要意义。复合材料整流罩舱壁大量使用蜂窝夹芯板,基于蜂窝夹芯结构精细化模型开展整流罩内声场环境预示计算量大,无法适用。本文建立了复合材料蜂窝夹芯板的力/声学等效模型,并利用精细化模型验证等效模型的精度;进一步基于有限元-边界元方法对某整流罩结构进行低频声振分析;同时,对整流罩的隔声量进行了评价。结果表明:整流罩内声场在频率为160 Hz附近声学环境较为恶劣,整流罩的降噪研究应针对该频段进行。