Recent active thermal management technologies for the development of energy-optimized aerospace vehicles in China

Recently, the development of modern vehicles has brought about aggressive integration and miniaturization of on-board electrical and electronic devices. It will lead to exponential growth in both the overall waste heat and heat flux to be dissipated to maintain the devices within a safe temperature range. However, both the total heat sinks aboard and the cooling capacity of currently utilized thermal control strategy are severely limited, which threatens the lifetime of the on-board equipment and even the entire flight system and shrink the vehicle’s flight time and range. Facing these thermal challenges, the USA proposed the program of “INVENT” to maximize utilities of the available heat sinks and enhance the cooling ability of thermal control strategies. Following the efforts done by the USA researchers, scientists in China fought their ways to develop thermal management technologies for Chinese advanced energy-optimized airplanes and spacecraft. This paper elaborates the available on-board heat sinks and aerospace thermal management systems using both active and passive technologies not confined to the technology in China. Subsequently, active thermal management technologies in China including fuel thermal management system, environment control system, non-fuel liquid cooling strategy are reviewed. At last, space thermal control technologies used in Chinese Space Station and Chang’e-3 and to be used in Chang’e-5 are introduced. Key issues to be solved are also identified, which could facilitate the development of aerospace thermal control techniques across the world.     

供油瞬态喷油杆内燃油结焦机理及规律数值研究

为获得喷油杆通断循环供油工作模式下,供油瞬间燃油结焦速率陡增机理,本文建立起沿喷杆轴向的一维非稳态热-流-固耦合换热与燃油结焦计算模型.获得不同时刻壁温、油温与结焦速率等参数轴向分布.通过与连续供油模式下的结果对比,来分析供油瞬间灼热喷杆内壁对燃油热冲击的影响,以获得结焦速率陡增机理.结果表明:通断供油模式下,供油瞬间...     

Operational modal parameter identification with colored noise excitation

Operational Modal Analysis (OMA) refers to the modal analysis of a structure in its operating state. The advantage of OMA is that only the output vibration signal of a system is used in the analysis process. Classic OMA is based on the white noise excitation assumption and many identification methods have been developed in both time domain and frequency domain. But in reality, many environmental excitations are not compliance with the white noise assumption. In this paper, a method of half power bandwidth analysis is applied to power spectrum analysis to deal with the colored noise and trapezoidal spectral excitation. The modal frequencies and modal damping ratios are derived and the error caused by trapezoidal spectral and colored noise excitation are analyzed. It is proved that the OMA algorithm based on the white noise assumption can be extended to the colored noise environments under certain conditions. Finally, a simulation example with a cantilever beam and a vibration test with four kinds of colored noise and trapezoidal spectrum base excitation are carried out and the results support the proposed method.     

硅橡胶基防热涂层动态烧蚀行为及机理研究

针对两种典型硅橡胶基防热涂层开展高温燃气流烧蚀实验，通过对烧蚀后涂层的宏观及微观形貌分析，探讨了其防隔热机理及烧蚀模型。研究结果表明：烧蚀后两种涂层均存在液态层、陶瓷层、热解层以及原始层；烧蚀过程中甲基苯基硅橡胶涂层主要发生主链“回咬”成环反应，导致树脂基体交联密度降低，力学性能下降，涂层外表面发生开裂，甲基乙烯基硅橡胶涂层则主要发生侧基交联反应，使树脂基体交联密度上升，促进涂层发生陶瓷化转变；热辐射、热容吸热、热解反应吸热以及热阻塞效应为四种主要的热耗散机制，质量损失产生的原因主要包括反应气体释放以及气动剪切力导致的机械剥蚀。     

Nonlinear aeroelastic analysis of the folding fin with freeplay under thermal environment

The nonlinear aeroelastic behavior of a folding fin in supersonic flow is investigated in this paper. The finite element model of the fin is established and the deployable hinges are represented by three torsion springs with the freeplay nonlinearity. The aerodynamic grid point is assumed to be at the center of each aerodynamic box for simplicity. The aerodynamic governing equation is given by using the infinite plate spline method and the modified linear piston theory. An improved fixed-interface modal synthesis method, which can reduce the rigid connections at the interface, is developed to save the problem size and computation time. The uniform temperature field is applied to create the thermal environment. For the linear flutter analyses, the flutter speed increases first and then decreases with the rise of the hinge stiffness due to the change of the flutter coupling mechanism. For the nonlinear analyses, a larger freeplay angle results in a higher vibration divergent speed. Two different types of limit cycle oscillations and a multiperiodic motion are observed in the wide range of airspeed under the linear flutter boundary. The linear flutter speed shows a slight descend in the thermal environment, but the effect of the temperature on the vibration divergent speed is different under different hinge stiffnesses when there exists freeplay.     

航空电气电弧、短路危害及保护研究

航空电气电弧、短路可能会导致难以挽回的损失,研究航空电气电弧、短路的危害及其保护措施具有 重要意义。通过试验室搭建民用飞机典型的115V/400Hz三相交流电气线路,选取金属导体作为多余物,采 用试验法对飞机电气电弧、短路故障现象进行研究,验证和分析传统热断路器的工作特性,确认电气电弧、短路 故障对电气线路和设备产生的危害程度;同时,分析三种更好的电气电弧、短路保护方法。结果表明:传统热断 路器仅对短路故障具有保护作用,对电气电弧不能产生保护作用;三种新的保护方法电弧检测和保护时间过 长,电弧已对导线和设备产品造成不可恢复的损坏。     

SiC/Al复合丝的耐蚀性和高温稳定性研究

本研究结果表明,SiC/L_6和SiC/LF_6复合丝在真空中加热至600℃和在空气中400℃暴露144小时,以及在蒸馏水和5%NaCl水溶液中浸泡15天后,其强度保留率大于87%,证明SiC/Al复合丝具有良好的耐蚀性和高温稳定性,用气相层析仪和发射光谱分析了腐蚀气体、溶液和白色沉淀,初步确定其反应机理是电化学腐蚀。与C/Al复合丝相比,SiC/Al腐蚀速度缓慢,纤维—基体界面损伤极小。     

面向对象建模(UML)的理论分析

本文主要介绍统一建模语言（UML）的产生基础、UML的基本语义；面向对象的机制和过程。     

航天器太阳电池阵热真空试验技术

文章叙述了进行太阳电池阵热真空试验的重要性、一般要求及相关的主要试验技术.     

A thermal activation based constitutive model for the dynamic deformation of AA5083 processed by large-scale equal-channel angular pressing

Aluminum alloy 5083 (AA5083) processed by large-scale Equal-channel angular pressing (ECAP) is an excellent engineering material with great prospects for industrial applications. An accurate assessment of the underlying constitutive relationships with easily determined material constants is critical for the predictive design and informed processing of such structural materials. To develop such a design framework, uniaxial dynamic compressive tests over a wide range of temperatures (293–573 K) were carried out for an ECAP-processed AA5083 alloy. Additionally, the microstructure before and after dynamic loading was characterized by SEM and TEM. Based on the experimental results, a new dynamic constitutive model, based on thermal activation theory, was established to describe the plastic flow behavior of the AA5083 alloy that incorporates the effects of plastic strain, temperature, and strain rate. The input parameters of the new model were determined using a particle swarm optimization (PSO) method. The model predictions show excellent agreement with experimental results, which suggests that the current predictive constitutive model is highly effective in reproducing the dynamic deformation behavior of the large-scale ECAP-processed AA5083.