军用航空发动机使用可靠性方法研究

对航空发动机现有可靠性评估方法进行优化改进,并以某型国产军用发动机为例进行使用可靠性评估。改进后的评估方法采用两种常用参数估计法,分别对薄弱系统故障数据进行三参数威布尔分布、单参数指数分布、双参数指数分布、正态分布及对数正态分布参数估计,随后采用柯尔莫哥洛夫检验及线性化处理并结合matlab编程进行优化选择。     

航空装备关键件微动疲劳寿命预测

通过微动疲劳损伤机理分析,以微动疲劳接触应力计算入手,建立了航空装备关键件中一种较为普遍的圆柱/平面接触微动疲劳结构的有限元全局模型和子模型,通过边界条件误差和离散误差分析,提高了计算精度和计算效率。以断裂力学为基础,根据复合型裂纹断裂判据,用改进的裂纹闭合积分法计算了裂纹尖端应力强度因子,引入应力强度因子影响系数,建立了微动疲劳裂纹扩展寿命预测模型,确定了模型中的参数,通过预测寿命与试验值的对比验证了该模型的正确、有效性。     

基于损伤力学预估点蚀疲劳寿命有限元法

飞机使用环境谱的不断变化会对机体结构造成腐蚀损伤,工程上难以在外场环境下进行实时损伤检测与疲劳性能试验。点蚀作为腐蚀的初始阶段,危害性大,部位也难以预测。采用损伤力学和有限元相结合的方法,以材料疲劳S-N数据为基础,将点蚀损伤认为是一种初始缺陷,建立基于损伤力学假设的点蚀损伤疲劳寿命预估方法,并提出一种改进型损伤参数反演方法。对点蚀疲劳失效过程进行数值模拟,模拟结果与试验结果吻合,证明该方法应用于金属材料点蚀疲劳问题中是合理的、可行的,为后续实际预腐蚀损伤疲劳研究奠定了基础。     

金属任意腐蚀损伤量的日历寿命计算模型和曲线

国际机械日历寿命研究,都是在假设已知腐蚀损伤容限Dc的前提下,求在这个Dc下的金属日历寿命。为了便于应用,本文不再假设腐蚀损伤容限Dc为已知数,而是把Dc当做变量,求金属任意腐蚀损伤量Di的日历寿命。本文通过多方面深入研究,发现腐蚀试验溶液的浓度dt与试验时间Ht的乘积除以试验获得的腐蚀损伤Dt等于一个常数。由此给出一种简单易行的金属任意腐蚀损伤量日历寿命的计算模型和相应的求解曲线。由此模型或曲线,可求得金属任意腐蚀损伤量的日历寿命。     

分布式测控环境下的实时通信研究

面向服务于航空试验的测控系统，提出了通过构架分布式测控环境的方法实现航空测控系统集成的构想，分析了航空试验测控系统中实时通信的特殊性，设计了基于以太网络的实时通信协议，并在此协议之上实现了分布式测控环境下的实时通信服务。     

Conceptual design of a bioregenerative life support system containing crops and silkworms

This article summarizes a conceptual design of a bioregenerative life support system for permanent lunar base or planetary exploration. The system consists of seven compartments – higher plants cultivation, animal rearing, human habitation, water recovery, waste treatment, atmosphere management, and storages. Fifteen kinds of crops, such as wheat, rice, soybean, lettuce, and mulberry, were selected as main life support contributors to provide the crew with air, water, and vegetable food. Silkworms fed by crop leaves were designated to produce partial animal nutrition for the crew. Various physical-chemical and biological methods were combined to reclaim wastewater and solid waste. Condensate collected from atmosphere was recycled into potable water through granular activated carbon adsorption, iodine sterilization, and trace element supplementation. All grey water was also purified though multifiltration and ultraviolet sterilization. Plant residue, human excrement, silkworm feces, etc. were decomposed into inorganic substances which were finally absorbed by higher plants. Some meat, ingredients, as well as nitrogen fertilizer were prestored and resupplied periodically. Meanwhile, the same amount and chemical composition of organic waste was dumped to maintain the steady state of the system. A nutritional balanced diet was developed by means of the linear programming method. It could provide 2721 kcal of energy, 375.5 g of carbohydrate, 99.47 g of protein, and 91.19 g of fat per capita per day. Silkworm powder covered 12.54% of total animal protein intakes. The balance of material flows between compartments was described by the system of stoichiometric equations. Basic life support requirements for crews including oxygen, food, potable and hygiene water summed up to 29.68 kg per capita per day. The coefficient of system material closure reached 99.40%.     

航空发动机材料寿命问题探讨

归纳了航空发动机材料的变形损伤机理,强调了变形物理机制模型在部件设计和全寿命预测管理方面的应用     

Assessing the feasibility of involving gaseous products resulting from physicochemical oxidation of human liquid and solid wastes in the cycling of a bio-technical life support system

The study addresses the possible ways of involving gaseous products produced by “wet” incineration of human wastes mixed with H₂O₂ in an alternating electric field in the cycling of the physical model of a bio-technical life support system (BTLSS). The resulting gas mixture contains CO₂ and O₂, which are easily involved in the cycling in the closed ecosystem, and NH₃, which is unacceptable in the atmosphere of the BTLSS. NH₃ fixation has been proposed, which is followed by nitrification and involvement of the resulting products in the mass exchange of the closed system. Experiments have been performed to show that plants can be grown in the atmosphere resulting from the closing of the gas loop that includes a physicochemical installation and a growth chamber with plants representing the phototrophic compartment of the BTLSS. The results of the study suggest the conclusion that the proposed method of organic waste oxidation can be a useful tool in creating a physical model of a closed-loop integrated BTLSS.     

Global Environmental Alert Service (GEAS)

Early warning systems represent an innovative and effective approach to mitigate the risk associated with natural hazards. Early warning technologies are now available for almost all natural hazards and systems are already in operation in all parts of the world. Nevertheless, recent disasters such as the Indian Ocean tsunami in 2004 and Katrina hurricane in 2005, highlighted inadequacies in early warning technologies.

Efforts towards the development of a global warning system are necessary for turning the tide in early warning processes and technologies. There is a pressing need for a globally comprehensive early warning system based on existing systems. The global system should be a mechanism which can consolidate scientific information and evidences, package this knowledge in a form usable to international and national decision makers and actively disseminate this information to those users.

The proposed Global Environmental Alert Service (GEAS) will provide information emanating from monitoring, Earth observing and early warning systems to users in a near-real-time mode and bridge the gap between the scientific community and policy makers. Characteristics and operational aspects of such a service, GEAS, are discussed.     

Increased BLSS closure using mineralized human waste in plant cultivation on a neutral substrate

The purpose of this work was to study the full-scale potential use of human mineralized waste (feces and urine) as a source of mineral elements for plant cultivation in a biological life support system (BLSS). Plants that are potential candidates for a photosynthesizing link were grown on a neutral solution containing human mineralized waste. Spring wheat Triticum aestivum L., peas Pisum sativum L. Ambrosia cultivar and leaf lettuce Lactuca sativa L., Vitaminny variety, were used. The plants were grown hydroponically on expanded clay aggregates in a vegetation chamber in constant environmental conditions. During plant growth, a determined amount of human mineralized waste was added daily to the nutrient solution. The nutrient solution remained unchanged throughout the vegetation period. Estimated plant requirements for macro-elements were based on a total biological productivity of 0.04 kg day⁻¹ m⁻². As the plant requirements for potassium exceeded the potassium content of human waste, a water extract of wheat straw containing the required amount of potassium was added to the nutrient solution. The Knop’s solution was used in the control experiments.