A321机型大过载着陆的QAR数据分析和探讨

A321是A320系列飞机中最大的成员,它和较小的A319存在一些不同的飞行特点。本文针对着陆接地阶段,从A321在接地后容易出现超过接地时的第二个过载峰值现象出发,通过QAR数据对比和理论分析,试图对这一现象进行理论解释,并进一步分析了A321带油门接地导致的这一现象加重的问题,对A321飞机着陆提出了安全操作建议。     

基于粒子群优化的直升机飞行控制律设计方法

针对直升机强耦合特性导致飞行控制律设计难度高的问题,提出了一种基于粒子群优化算法的改进线性二次型调节器(Linear quadratic regulator,LQR)设计方法.针对直升机的线化状态空间模型,基于LQR设计方法建立了直升机飞行控制律全状态反馈矩阵的基本求解算法;以系统稳定性为约束,以最大化主状态反馈系数影...     

CF/PEEK复合材料超声辅助铣削力和表面质量研究

为改善碳纤维增强聚醚醚酮复合材料（CF/PEEK）在铣削加工时所产生的毛刺、分层以及表面凹坑等缺陷，采用超声辅助铣削的加工方式分别沿0°、45°、90°、135°四种纤维方向角对CF/PEEK进行实验，并与传统铣削进行对比研究。结果表明：超声辅助铣削与传统铣削相比，切削力更小且加工质量更优。沿90°纤维方向角对试件进行超声辅助铣削，切削力、表面粗糙度和毛刺高度降幅最显著，分别降低了16.79%、28.9%和71.9%。而且在相同的加工参数下，超声辅助铣削与传统铣削相比，能够有效地改善表面凹坑、分层等表面缺陷。     

经验模态分解火箭发动机多界面粘结检测特征信号提取技术

针对固体火箭发动机在存放期间粘结界面易出现脱粘的情况,采用超声纵波对其一二界面粘结质量进行检测,得到的二界面脱粘缺陷回波信号通常混叠了 一界面多次反射透射的信号,无法与一界面粘结信号区分.为了区分不同界面回波信号,选用EMD(经验模态分解)对回波信号分解,并根据相关性系数得到信号主导作用模态分量,提取其检测信号幅度特征...     

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。     

大气探测激光雷达组网观测一致性研究

通过激光遥感获取气溶胶、云垂直分布情况，对研究气溶胶、云微物理特性、辐射强迫效应以及污染物传输等具有重大意义。在实际应用中激光雷达受激光器能量、发散角以及透过率等影响，会导致各雷达面对同一目标物探测数据不一致。随着地基大气探测激光雷达逐步规模化、标准化，对雷达组网观测一致性开展研究具有重要意义。为保证组网激光雷达数据高质量和高可靠性，在雷达系统自标定基础上，利用太阳光度计、大气分子模型获取激光雷达系统常数，确保各激光雷达回波信号定量可比。通过激光雷达组网观测进行探测目标一致性比对试验，以验证激光雷达系统探测一致性精度。结果表明：标定后，532 nm距离修正信号在1~2 km区间相对偏差从64.89%降低到22.16%，在2~5 km区间相对偏差从49.26%降低到8.90%，在9.5~11.5 km相对偏差从46.83%降低到10.91%；532 nm退偏比在1~2 km区间相对偏差从69.68%降低到20.68%，在2~5 km区间相对偏差从71.24%降低到6.69%，在9.5~11.5 km相对偏差从140.24%降低到9.02%；532 nm后向散射系数在1~2 km区间相对偏差从37.45%降低到23.63%，在2~5 km区间相对偏差从29.15%降低到21.45%，在9.5~11.5 km相对偏差从76.02%降低到24.16%。组网激光雷达数据结果一致性较好，可在多站点进行高精度探测，在气候变化研究、碳排放监测和环境研究等领域发挥重要作用，为大规模大气变化规律研究提供高质量、有效数据。     

Improving profile accuracy and surface quality of blisk by electrochemical machining with a micro inter-electrode gap

Electrochemical machining (ECM) has emerged as an important option for manufacturing the blisk. The inter-electrode gap (IEG) distribution is an essential parameter for the blisk precise shaping process in ECM, as it affects the process stability, profile accuracy and surface quality. Larger IEG leads to a poor localization effect and has an adverse influence on the machining accuracy and surface quality of blisk. To achieve micro-IEG (<50 μm) blisk finishing machining, this work puts forward a novel variable-parameters blisk ECM strategy based on the synchronous coupling mode of micro-vibration amplitude and small pulse duration. The modelling and simulation of the blisk micro-IEG machining have been carried out. Exploratory experiments of variable-parameters blisk ECM were carried out. The results illustrated that the IEG width reduced with the progress of variable parameter process. The IEG width of the blade’s concave part and convex part could be successfully controlled to within 30 μm and 21 μm, respectively. The profile deviation for the blade’s concave surface and convex surface are 49 μm and 35 μm, while the surface roughness reaches R_a = 0.149 μm and R_a = 0.196 μm, respectively. The profile accuracy of the blisk leading/trailing edges was limited to within 91 μm. Compared with the currently-established process, the profile accuracy of the blade’s concave and convex profiles was improved by 50.5 % and 53.3 %, respectively. The surface quality was improved by 53.2 % and 50.9 %, respectively. Additionally, the machined surface was covered with small corrosion pits and weak attacks of the grain boundary due to selective dissolution. Some electrolytic products were dispersed on the machined surface, and their components were mainly composed of the carbide and oxide products of Ti and Nb elements. The results indicate that the variable-parameters strategy is effective for achieving a tiny IEG in blisk ECM, which can be used in engineering practice.     

涂层刀具低温铣削SiCp/Al复合材料表面质量研究

在加工过程中,相反的两相特性增加了 SiCp/Al复合材料加工难度,难以获得良好的表面质量.为了提高其切削性能,本文开展20vol％SiCp/Al复合材料铣削加工试验研究,比较常温和低温条件下TiAlN涂层和TiAlSiN涂层两种铣刀的切削性能.结果表明,在低温条件下,两种刀具的切削力增加,铣削后表面铝基体的开裂及剥落...     

一种飞机侧向增稳系统设计方案及仿真验证

具有三角翼、大后掠角等气动布局特点的现代超音速飞机虽然解决了飞行速度问题,但同时极易出现高空飞行的荷兰滚阻尼、航/横侧向静稳定性减小、滚摆比变大等问题。为改善飞机航/横侧运动的飞行品质,基于飞机滚转和偏航两通道的相互交联,将滚转通道舵偏信号引入偏航通道,以增强偏航角速度反馈信号,增加飞机转弯的协调性,进而设计了一种高速飞机航/横侧向增稳控制系统。通过进行大量仿真,验证了所设计的飞机航/横侧向增稳控制系统结构简单合理,在其控制规律传动比等参数选择合理时,飞机航/横侧向飞行品质良好。     

Flow field design and experimental investigation of electrochemical machining on blisk

Flow field is a crucial factor to influence the stability and surface quality in the electrochemical machining (ECM) of blisks. A four-way flow mode was proposed to eliminate mixing regions of electrolyte at the leading and tailing edges. Two flow field models were described separately in this report: a W-shaped flow mode and a four-way flow mode. The flow field was analyzed through a finite element method. The results showed that, in comparison with the W-shaped flow mode, the distribution of electrolyte flow was more uniformed and the mixed region in the flow channel was improved. The pressure of the leading and tailing edges inlets was optimized, and optimal pressure of 0.6 MPa was determined. In addition, verification experiments were performed, and the results showed that the stability, efficiency, and quality of the profiles of the blisk blade manufactured by ECM were enhanced in the new flow mode.