导弹舵偏角计算与分析

本文通过数学建模，用计算机编程求出某型号弹舵偏角，并分析了各主次环节对导弹舵偏角的影响，指出了各零件制造，装配公差对舵偏角的影响。给导弹的控制提供了很好的借鉴，突出了计算机编程计算带来了方便与快捷。     

美国固体火箭发动机钨钼合金燃气舵材料的研制

介绍美国马丁公司用钨钼合金作燃气舵材料的研究工作.纯钨材料燃气舵的比重大;既硬又脆;机械加工性能极差,价格昂贵.纯钼材料燃气舵却不耐烧蚀和热冲刷.而85%钨15%钼的钨钼合金燃气舵能经受3079℃高温燃气流历时40秒钟的机械负载和热负载侵蚀试验.对燃烧时间短的固体火箭发动机,60%钨40%钼的钨钼合金燃气舵已能满足其要求了.舵的前缘半径对舵面烧蚀受损率、升力特性和重量均有影响.对当前舰载垂直发射导弹系统来说,希望采用前缘半径小,重量轻,升力特性好,价格低廉的钨钼合金燃气舵.     

航空、航天类中文核心期刊《实验流体力学》征稿简则

1．《实验流体力学》（原名：《流体力学实验与测量》（季刊），是中国空气动力学会主办的综合性学术兼技术刊物。主要传递实验流体力学以及空气动力学相关领域的新信息，新成果和新动态。主要的读者对象是：从事实验流体力学、空气动力学及其相关学科的实验技术、实验研究、测试技术与设计、制造、使用、教学等领域的广大科技人员、管理人员和院校师生。     

NOVEL RADAR SIGNAL SORTING METHOD BASED ON GEOMETRIC COVERING

With the increase of complexity of electromagnetic environment and continuous appearance of advanced system radars, signals received by radar reconnaissance receivers become even more intensive and complex. There- fore, traditional radar sorting methods based on neural network algorithms and support vector machine （SVM） cannot process them effectively. Aiming at solving this problem, a novel radar signal sorting method based on the cloud model theory and the geometric covering algorithm is proposed. By applying the geometric covering algo- rithm to divide input signals into different covering domains based on their distribution characteristics, the method can overcome a typical problem that it is easy for traditional sorting algorithms to fall into the local extrema due to the use of complex nonlinear equation to describe input signals. The method uses the cloud model to describe the membership degree between signals to be sorted and their covering domains, thus it avoids the disadvantage that traditional sorting methods based on hard clustering cannot deinterleave the signal samples with overlapped param- eters. Experimental results show that the presented method can effectively sort advanced system radar signals with overlapped parameters in complex electromagnetic environment.     

纵向尾流间隔计算方法研究

综合考虑了飞机的速度、翼展、机翼面积、发动机推力等参数,应用空气动力学中的环量计算理论、尾流消散原理等,将动量定理和涡阻力的计算原理应用到尾流间隔的计算,分别建立了纵向尾流间隔计算模型。采用实际数据计算验证模型的正确性。     

DYNAMIC RESPONSE ANALYSIS OF CARRIER-BASED AIRCRAFT DURING LANDING

In view of the complexity of landing on the deck of aircraft carrier, a systematic model, composed of six- degree-of-freedom mathematic model of carrier-based aircraft, four-degree-of-freedom model of landing gears and six-degree-of-freedom mathematic model of carrier, is established in the Matlab-Simulink environment, with damping function of landing gears and dynamic characteristics of tires being considered. The model, where the car- rier movement is introduced, is applicable for any abnormal landing condition. Moreover, the equations of motion and relevant parameter are also derived. The dynamic response of aircraft is calculated via the variable step-size Runge-Kuta algorithm. The effect of attitude angles of aircraft and carrier movement during the process of landing is illustrated in details. The analytical results can provide some reference for carrier-based aircraft design and main- tenance.     

四川海特：全面发展续写辉煌

近年来，海特高新在巩固原有维修能力的同时，不断拓展新业务，极大地增强了自身的市场竞争力。今年，旗下的奥特附件空气压缩站扩容改造工程顺利完工，使其空调气动附件维修能力上了一个新的台阶，基本町满足宽体双发飞机空气循环机（ACM）、空气起动机等气动附件的维修需求。     

大型飞机空气动力学设计——北航朱自强教授访谈

大型飞机的安全性、经济性、舒适性与环保性的要求对空气动力学提出了新的挑战,需要空气动力学设计提供新的思想、新的概念,并在工程应用上得以实现.记者采访了北京航空航天大学航空学院的朱自强教授,他介绍了超临界翼型、自然层流翼型的特点和工程应用难点.以及发展大飞机需突破的空气动力学难题.