超声爬波无损检测方法的研究

本文介绍了超声无损检测中一种具有较好应用前景的波型──超声爬波。试验研究了爬波检测时缺陷定位、定性评定的方法，并给出了主要结论。     

力控制反馈信号的神经网络法校正

对机器人的力反馈，主动柔顺控制和双向联想记忆的神经网络进行了综合研究，针对机器人腕力传感器输出信号的部分失真，提出了机器人擦洗平面玻璃力反馈信号神经校正的方法，并建立了相应的神经网络结构，在ＡｄｅｐｔＴｈｒｅｅ精密装配机器人上进行了试验验证，取得了满意的效果。     

时频测量的新技术——相位重合点检测技术

近年来相位重合点检测技术和周期性信号参数测量各种高精度的方法在国内外得到了广泛应用。对这种新技术的基本原理、所派生的频率、周期、相位差和时间间隔测量方法作了介绍。这些新方法测量精度高,测量频率范围宽,设备构成比较简单,在时频测量领域将获得越来越广泛的应用,可能逐渐取代已有的某些测量技术,并可在其它量测量领域获得推广。     

基于FPGA的高准确度数字频率信号源设计

介绍了直接数字频率合成技术的实现方法,分析了其优越的技术特性。根据其特性,利用FPGA设计了高准确度的数字频率信号源。仿真结果表明,与传统的信号源相比,使用该方法实现的信号源,其信号种类多,准确度高,满足测试设备数字化、软件化的趋势。     

微波泄漏对光抽运铯束频标准确度影响的分析

微波泄漏是影响光抽运铯原子钟准确度的主要因素之一. 傅里叶变换分析法是分析其影响的主要手段,但该方法只能用来分析有效原子速度分布很窄的情况.通过分析和计算,推导出频移随漏场的位置、相位和幅度变化的关系式.计算和分析的结果表明,漏场引起频移大小和漂移区的长度、输入微波功率值和漏场的相位、强度和位置等有关.所得的结果和用傅里叶变换方法分析所得的结果是一致的,分析的方法不受原子有效速度限制.     

Suggestion for aircraft flying qualities requirements of a short-range air combat mission

Owing to the lack of a direct link with the operations in short-range air combat,conventional aircraft flying qualities criteria are inappropriate to guide the design of a task-tailored flight control law.By applying the mission-oriented flying qualities evaluation approach,various aircraft with different control law parameters are evaluated on a ground-based simulator.This paper compares the evaluation results with several conventional flying qualities criteria,and discusses the appropriate parameter combination to reflect the flying qualities requirements of short-range air combat,The comparison and analysis show that a short-range air combat mission requires a higher minimum short period mode natural frequency and a smaller maximum roll mode time constant,and allows a lower minimum pitch attitude bandwidth and a higher maximum short period mode damp ratio than those of conventional flying qualities criteria.Furthermore,a combination of the pitch attitude bandwidth,the pitch attitude magnitude at the bandwidth frequency,and the pitch attitude transfer function gain can define the flying qualities requirements of short-range air com bat.The new metric can successfully predict the flying quality levels of aircraft in a short-range air combat mission.     

无人水面艇海洋调查国内应用进展与展望

针对浅水区、污染区、极地等复杂海洋环境，传统海洋调查手段劳动强度高、安全风险大、作业效率低。无人水面艇具备无人、高效等特点，非常适合在上述复杂海洋环境中作业，并于近年来在海洋调查领域中得到了快速发展与广泛应用。从海洋调查领域中无人水面艇的优势、国内外典型的无人水面艇和应用案例入手，深入分析了我国无人水面艇海洋调查的现状，并对未来的技术发展方向进行了展望。实践表明，应用无人水面艇进行海底地形地貌调查的技术已基本成熟，水深数据质量和自主导航精度均可满足规范要求。在未来，须将无人水面艇的应用进一步扩展至物理海洋、海洋生物、海洋化学等专业领域，并加快研制基于可再生能源的长航程无人水面艇，以开展全球性海洋调查。     

An innovative study on low surface energy micronano coatings with multilevel structures for laminar flow design

Laminar flow design is one of the most effective ways to reduce the drag of a commercial aircraft by expanding the laminar flow region on the surface of the aircraft. As material science develops, the emergence of new materials such as low surface energy materials has offered new choices for laminar flow design of commercial aircraft. Different types of low surface energy micro-nano coatings are prepared to verify the effects on the boundary layer transition position and the drag of the airfoil through wind tunnel tests. The infrared thermal imaging technology is adopted for measuring the boundary layer transition, while the momentum integral approach is employed to measure the drag coefficient through a wake rake. Infrared thermal imaging results indicate that the coatings are capable of moving backward the boundary layer transition position at both a low velocity of Mach number 0.15 and a high velocity of Mach number 0.785. Results of the momentum integral approach demonstrate that the drag coefficients are reduced obviously within the cruising angle of attack range from 1° and 5° by introducing the low surface energy micro-nano coating technology.     

A coupling VWM/CFD/CSD method for rotor airload prediction

A coupling fluid-structure method with a combination of viscous wake model(VWM),computational fluid dynamics(CFD) and comprehensive structural dynamics(CSD) modules is developed in this paper for rotor unsteady airload prediction. The hybrid VWM/CFD solver is employed to model the nonlinear aerodynamic phenomena and complicated rotor wake dynamics;the moderate deflection beam theory is implemented to predict the blade structural deformation; the loose coupling strategy based on the ‘delt method' is used to couple the fluid and structure solvers.Several cases of Helishape 7A rotor are performed first to investigate the effect of elastic deformation on airloads. Then, two challenging forward flight conditions of UH-60 A helicopter rotor are investigated, and the simulated results of wake geometry, chordwise pressure distribution and sectional normal force show excellent agreement with available test data; a comparison with traditional CFD/CSD method is also presented to illustrate the efficiency of the developed method.