紫外辐照下透明聚氨酯胶片老化机理

针对高端夹层玻璃的老化问题,选用荧光紫外灯,对其主要粘结材料——透明聚氨酯胶片分别进行0/200/300/500 h的照射,借助紫外/可见光分光光度计、傅里叶红外光谱仪、扫描电镜等设备,研究照射过程中材料颜色、结构、微观形貌的变化。扫描电镜显示照射时间延长到500 h,材料表面出现龟裂。实验发现胶片的老化起始于硬段及软段部位与N,O相连的α位置的碳原子,在紫外光及氧气的联合作用下产生氢过氧化物;该过氧化合物一部分继续氧化成CO,一部分通过β分裂,使C—N,C—O键断裂,致使材料龟裂。     

用EIS法研究丙烯酸聚氨酯涂层的光老化性能

 用交流阻抗图谱法(EIS)研究了丙烯酸聚氨酯涂层的紫外光老化过程。老化前后涂层的孔隙率电阻、涂层电容、极化电阻以及双电子层电容均发生了明显变化。涂层孔隙率从1.986×10^-5上升到2.174×10^-4，半定量化地表征了涂层的老化规律。SEM分析验证了涂层孔隙率的变化，涂层失光率、色差变化规律跟孔隙率的变化规律有很好的相关性。研究结果证明,涂层的孔隙率可以作为一个重要参数用来检测及预测涂层的老化规律。最后，根据EDS的检测结果对丙烯酸聚氨酯涂层的老化机理进行了探讨。     

单点金刚石铣削KDP晶体实验研究

通过实验研究了KDP晶体铣削加工的切削力特性,分析了切削深度、进给量对切削力的影响,并对KDP晶体和铝合金的切削力进行了比较。结果表明,在不影响加工表面质量的前提下,可以适当加大切削深度和进给量从而提高切削效率。     

Antenna Beam-Shape Factor in Scanning Radars

The method by which the antenna beam-shape factor is taken into account in scanning radars has been reexamined. The ``conventional' method is shown to give results within ±0.25 dB of the ``correct' results, which provides ample justification of its use over the past years. However, by basing the procedure on the assumption of a properly matched postdetection integrator, and leaving the question of nonoptimum postdetection integration to be treated as a separate problem, somewhat more accurate results can be obtained. This study has also called attention to the fact that a mismatched postdetection integrator results in only half the degradation in performance that a corresponding predetection mismatch would cause.     

Synthetic aperture radar image formation from compressed data usinga new computation technique

A convolution technique is proposed that allows direct reconstruction of the processed synthetic-aperture radar (SAR) image from the digitally-sampled, block-encoded raw data. This computational compression technique reduces the number of arithmetic operations from that required by fast Fourier transform (FFT) convolution for SAR processing. SAR phase histories are block encoded and directly processed into an image where only arithmetic additions are required for the processing. For SAR data previously block encoded, the processing time is reduced by a factor of 100 or more. A speed-up of three times over SAR processing by FET convolution has been demonstrated when both computation of the block encoding and subsequent direct processing are included in the time. SAR image quality measurements for a method of block encoding called vector quantization at compression ration ranging from 5:1 to 50:1 show image degradation proportional to the compression ratio. For a 5:1 compression radio, image quality measurements show minimal degradation     

铁电材料研究进展及其在飞行器上的应用

铁电材料是具有驱动和传感 2种功能的机敏材料,可以块材、膜材 (薄膜和厚膜 )和复合材料等多种形式应用,在微电子机械和智能材料与结构系统中具有广阔的潜在应用市场。近年来铁电陶瓷材料获得很大发展,例如弛豫型铁电陶瓷,反铁电 -铁电相变型铁电陶瓷都取得了实际应用。铁电材料中大应变弛豫型铁电单晶材料研制成功,是近 50年来取得的突破性进展。主要介绍了智能材料与结构相关的铁电材料特点及其在飞行器上的应用前景     

凝固过程液相区内晶体形成的模拟研究

通过NH_4C1水溶液二维凝固过程的模拟实验,研究了凝固过程中液相区内的晶体形成条件。结果表明,随凝固条件和时间的不同,型壁上晶体的游离、表面凝固产生“晶雨”及枝晶熔断均可在液相区形成晶体。     

Study on the Anisotropy of Meniscus in the Growing Sapphire

This study is aimed at predicting the relationship between the meniscus and the quality of the sapphire crystals produced by the micro-pulling and shoulder at cooled center (SAPMIC) technique. As with different orientations, the shapes of the meniscus vary, so an investigation into the anisotropy of the meniscus shapes is very important for the final quality of the sapphire crystal. An effective model to describe meniscus shapes and their formation process has been presented. The model has been applied to a sapphire crystal of 200 mm diameter in order to check its reliability. The results show that the model proves to be useful for forecasting the final shapes of the sap-phire crystal made by the SAPMIC technique.     

基于带漂移的布朗运动的民用航空发动机实时性能可靠性预测

以民用航空发动机为研究对象,运用性能退化可靠性理论和随机过程方法,对发动机的可靠性进行了研究.通过分析发动机性能退化过程,建立了基于带漂移的布朗运动的可靠性模型,利用布朗运动特性研究了基于当前状态的退化时间预测方法,实例证明,该方法可操作性强,易于工程实现,为航空公司进行发动机机队科学管理提供了基础.      

线性独立增量过程分析方法

提出了线性独立增量随机过程的概念和定义,建立了线性独立增量过程回归模型及其分析方法,给出了回归方程和高置信度、高可靠度的置信上、下限曲线.传统回归分析方法只能对数据点进行分析处理,线性独立增量过程分析方法则能够对过程进行回归分析,因此可以对性能退化、裂纹扩展等线性独立增量过程进行整体推断,具有信息量大、精度高的特点.大量Monte Carlo模拟和工程应用表明,在试样数相同的情况下,该方法比传统方法具有更高的精度,而在精度相同的情况下,则可减少试样.      

Thermal Stresses and Cracks During the Growth of Large-sized Sapphire with SAPMAC Method

本文利用有限元法对冷心放肩微量提拉法(SAPMAC)生长大尺寸蓝宝石单晶过程中的热应力进行了模拟计算,应用临界缺陷理论解释了裂纹的萌生与扩展机理。研究表明,晶体内的热应力主要与晶体生长速率,环境温度和结晶取向有关;较大热应力多出现在结晶界面,放肩、收尾以及直径急剧变化等位置;最大热应力总是出现在籽晶与新生晶体的界面附近。裂纹将在临界缺陷位置产生,并在应力作用下沿a或m面扩展。计算结果与实验结果基本吻合,通过晶体生长系统和生长工艺的改进,对晶体的开裂问题得到了有效的抑制。     

Remaining useful life prognostics for aeroengine based on superstatistics and information fusion

Remaining useful life（RUL） prognostics is a fundamental premise to perform conditionbased maintenance（CBM） for a system subject to performance degradation. Over the past decades,research has been conducted in RUL prognostics for aeroengine. However, most of the prognostics technologies and methods simply base on single parameter, making it hard to demonstrate the specific characteristics of its degradation. To solve such problems, this paper proposes a novel approach to predict RUL by means of superstatistics and information fusion. The performance degradation evolution of the engine is modeled by fusing multiple monitoring parameters, which manifest non-stationary characteristics while degrading. With the obtained degradation curve,prognostics model can be established by state-space method, and then RUL can be estimated when the time-varying parameters of the model are predicted and updated through Kalman filtering algorithm. By this method, the non-stationary degradation of each parameter is represented, and multiple monitoring parameters are incorporated, both contributing to the final prognostics. A case study shows that this approach enables satisfactory prediction evolution and achieves a markedly better prognosis of RUL.     

飞行中附面层转捩的流动显示与测量技术

阐述了在飞行试验中测量附面层转捩的重要性;介绍了四种在飞行试验中显示和测量机翼附面层转捩的方法;给出了Ｆ－１４Ａ飞机用热膜,附面层耙,液晶和表面总压管等方法测量附面层转捩的结果,并对以上四种测量结果者了对比分析,指出了各自的优缺点,说明热膜法能精确地确定飞行状态下机翼附面层转捩位置;附面层也能比较精确地进行测量,且能提供与表面摩擦仍关的参数,液晶法能人出附面层转捩的整体图形,表面总压管不能确切地指     

基于信息融合的航空发动机剩余寿命预测

利用航空发动机状态监测信息,考虑到信息本身具有的误差性和随机性等特点,采用贝叶斯线性模型融合了监测信息,实现了综合利用多源信息的进行航空发动机性能衰退评估;以性能衰退评估结果为输入变量,建立基于Gamma随机过程的可靠性评估模型,预测在指定性能可靠性水平下的剩余寿命.通过算例,分析了不同监测参数对剩余寿命预测的影响.该方法能将性能监测与可靠性分析集成到一个框架中,充分利用了多种状态监测信息,结果更加准确,更符合控制航空发动机维修决策风险的实际.      

Multi-mode diagnosis of a gas turbine engine using an adaptive neuro-fuzzy system

Gas Turbine Engines (GTEs) are vastly used for generation of mechanical power in a wide range of applications from airplane propulsion systems to stationary power plants. The gas-path components of a GTE are exposed to harsh operating and ambient conditions, leading to several degradation mechanisms. Because GTE components are mostly inaccessible for direct measurements and their degradation levels must be inferred from the measurements of accessible parameters, it is a challenge to acquire reliable information on the degradation conditions of the parts in different fault modes. In this work, a data-driven fault detection and degradation estimation scheme is developed for GTE diagnostics based on an Adaptive Neuro-Fuzzy Inference System (ANFIS). To verify the performance and accuracy of the developed diagnostic framework on GTE data, an ensemble of measurable gas path parameters has been generated by a high-fidelity GTE model under (a) diverse ambient conditions and control settings, (b) every possible combination of degradation symptoms, and (c) a broad range of signal to noise ratios. The results prove the competency of the developed framework in fault diagnostics and reveal the sensitivity of diagnostic results to measurement noise for different degradation symptoms.     

Fault tolerant control system design with explicit consideration of performance degradation

A new approach is proposed for active fault tolerant control systems (FTCS), which allows one to explicitly incorporate allowable system performance degradation in the event of partial actuator fault in the design process. The method is based on model-following and command input management techniques. The degradation in dynamic performance is accounted for through a degraded reference model. A novel method for,selecting such a model is also presented. The degradation in steady-state performance is dealt with using a command input adjustment technique. When a fault is detected by the fault detection and diagnosis (FDD) scheme, the reconfigurable controller is designed automatically using an eigenstructure assignment algorithm in an explicit model-following framework so that the dynamics of the closed-loop system follow that of the degraded reference model. In the mean time, the command input is also adjusted automatically to prevent the actuators from saturation. The proposed method has been evaluated using the lateral dynamics of an F-8 aircraft against actuator faults subject to constraints on the magnitude of actuator inputs. Very encouraging results have been obtained.     

An energy-based coupling degradation propagation model and its application to aviation actuation system

The degradation of components in complex mechatronic systems involves multiple physical processes which will cause coupling interactions among nodes in the system. The interaction of nodes may be carried out not only by physical connections but also by the environment which cannot be described by single network using the traditional methods. In order to give out a unified model to quantitatively describe the coupling degradation spreading by both physical connections and environment, a novel Energy-Flow-Field Network (EFFN) and a coupling degradation model based on EFFN are proposed in this paper. The EFFN is driven by energy flow and the state transition of spatially related nodes is triggered by the dissipation energy. An application is conducted on aviation actuation system in which the degradation spreading by fluid-thermal-solid interaction is considered. The degradation path and the most probable fault reason can be obtained by combining the state transition and energy output of nodes, which is consistent with the given scenario.     

A new remaining useful life estimation method for equipment subjected to intervention of imperfect maintenance activities

As the key part of Prognostics and Health Management (PHM), Remaining Useful Life (RUL) estimation has been extensively investigated in recent years. Current RUL estimation studies considering the intervention of imperfect maintenance activities usually assumed that maintenance activities have a single influence on the degradation level or degradation rate, but not on both. Aimed at this problem, this paper proposes a new degradation modeling and RUL estimation method taking the influence of imperfect maintenance activities on both the degradation level and the degradation rate into account. Toward this end, a stochastic degradation model considering imperfect maintenance activities is firstly constructed based on the diffusion process. Then, the Probability Density Function (PDF) of the RUL is derived by the convolution operator under the concept of First Hitting Time (FHT). To implement the proposed RUL estimation method, the Maximum Likelihood Estimation (MLE) is utilized to estimate the degradation related parameters based on the Condition Monitoring (CM) data, while the Bayesian method is utilized to estimate the maintenance related parameters based on the maintenance data. Finally, a numerical example and a practical case study are provided to demonstrate the superiority of the proposed method. The experimental results show that the proposed method could greatly improve the RUL estimation accuracy for the degrading equipment subjected to imperfect maintenance activities.     

低太阳吸收率αs,高发射率ε有机硅热控涂层进展

本文总结了有机硅热控涂层的设计原理及其紫外真空降解原因,评述了涂层的国内外进展.     

TiO2基紫外探测器的制备及退火工艺对光电性能的影响

采用磁控溅射方法,通过不同工艺的退火处理,制备了光电性能优良的TiO2基紫外探测器.通过紫外光电性能测试、扫描电子显微镜( SEM)观察及X射线衍射(XRD)分析,研究了退火工艺对探测器光电性能的影响规律.结果表明:随着退火温度的增加,TiO2晶粒尺寸显著增大,晶界和缺陷数量的变化是导致TiO2基紫外探测器的光电性能随退火工艺变化的根本原因.经500℃/2h退火后,紫外探测器的光电流高出暗电流近2.5个数量级,紫外波段的光响应高出可见光波段近2个数量级,所制备紫外探测器达到了高辐射灵敏度和可见盲特性的要求.