非均质变截面折线形梁面内振动的传递矩阵解法

考虑到折线形梁面内二维振动的特性，用传递矩阵法分析其面内的自由振动问题，导出了匀质变截面折线形梁面内振动的频率方程，利用非线性代数方程求根的计算机解法，可求得任意精度的任意阶固有频率。方法公式简洁，占计算机内存少，可编制成通用程序在小型微机上分析大型复杂折线形梁的面内振动特性。     

NH90型直升机发动机安装系统的剖析

本文对NH90型直升机的发动机安装形式进行剖析，并为其在直升机上的应用提供理论依据。     

大厚度Ni_(75)B_(17)Si_8非晶合金的制备

 研究了净化Ni_(75)B_(17)Si_(8)合金液的方法以及净化对非晶形成能力的影响,通过净化工艺消除合金液内的异质质点可提高合金液的非晶形成能力;釆用净化和急冷相结合的工艺制备出了20×10×0.5(mm~3)的Ni-(75)B_(17)Si_(8)非晶合金试样。     

支持向量机增量学习方法及应用

基于支持向量机的增量学习作为一种数据挖掘与知识发现技术,已在目标识别,网页分类等诸多领城得到应用.在概述其机理的基础上,从如何提高学习精度与学习速度着手,分析了现有算法及其优缺点和需要改进的问题;论述了增量学习的应用现状,并提出进一步的研究方向.     

航空发动机承力系统试验建模技术研究

通过建立航空发动机整机振动分析模型,对试验与理论相结合的建模技术进行了研究,提出了试验建模的具体算法,并进行了精度分析。     

铝粉颗粒燃烧及其燃烧产物凝聚成核计算研究

在建立铝颗粒燃烧模型及其燃烧产物凝聚成核模型基础上，对铝粉燃烧所形成的Ａｌ２Ｏ３平均粒径了进行了计算研究。也对推进剂燃烧环境下铝颗粒燃烧区域中温度、燃烧产物的质量分数、过饱和度及其凝聚成核速度的变化规律进行了分析讨论。     

FL-8风洞三点支撑系统研制

为提高大展弦比和飞翼类等大载荷飞行器风洞试验的准精度，中航工业气动院在FL-8低速风洞开展了三点支撑系统研究。两种空间形状和截面形状支杆的风洞试验表明：三点支撑增加了试验系统纵横向的刚度，使得试验精度有所提高；支杆形状对横向试验结果影响显著，精细地设计模型附近支杆对提高试验准度很有帮助。     

基层级航空弹药技术保障中保障人员的配置优化

介绍了航空弹药保障人员的特点,建立了保障人员的优化配置模型,并对该模型进行了验证。     

飞机地面保障车辆液压缸闭环数字式控制系统开发研究

介绍了液压控制在飞机地面保障车辆中的应用,提出了现存应用中的弊端,设计一套完整的闭环数字式控制系统,解决了PC与PLC之间的通讯问题,并且开发了相关的计算机监控软件系统。     

Crop productivities and radiation use efficiencies for bioregenerative life support

NASA’s Biomass Production Chamber (BPC) at Kennedy Space Center was decommissioned in 1998, but several crop tests were conducted that have not been reported in the open literature. These include several monoculture studies with wheat, soybean, potato, lettuce, and tomato. For all of these studies, either 10 or 20 m² of plants were grown in an atmospherically closed chamber (113 m³ vol.) using a hydroponic nutrient film technique along with elevated CO₂ (1000 or 1200 μmol mol⁻¹). Canopy light (PAR) levels ranged from 17 to 85 mol m⁻² d⁻¹ depending on the species and photoperiod. Total biomass (DM) productivities reached 39.6 g m⁻² d⁻¹ for wheat, 27.2 g m⁻² d⁻¹ for potato, 19.6 g m⁻² d⁻¹ for tomato, 15.7 g m⁻² d⁻¹ for soybean, and 7.7 g m⁻² d⁻¹ for lettuce. Edible biomass (DM) productivities reached 18.4 g m⁻² d⁻¹ for potato, 11.3 g m⁻² d⁻¹ for wheat, 9.8 g m⁻² d⁻¹ for tomato, 7.1 g m⁻² d⁻¹ for lettuce, and 6.0 g m⁻² d⁻¹ for soybean. The corresponding radiation (light) use efficiencies for total biomass were 0.64 g mol⁻¹ PAR for potato, 0.59 g DM mol⁻¹ for wheat, 0.51 g mol⁻¹ for tomato, 0.46 g mol⁻¹ for lettuce, and 0.43 g mol⁻¹ for soybean. Radiation use efficiencies for edible biomass were 0.44 g mol⁻¹ for potato, 0.42 g mol⁻¹ for lettuce, 0.25 g mol⁻¹ for tomato, 0.17 g DM mol⁻¹ for wheat, and 0.16 g mol⁻¹ for soybean. By initially growing seedlings at a dense spacing and then transplanting them to the final production area could have saved about 12 d in each production cycle, and hence improved edible biomass productivities and radiation use efficiencies by 66% for lettuce (to 11.8 g m⁻² d⁻¹ and 0.70 g mol⁻¹), 16% for tomato (to 11.4 g m⁻² d⁻¹and 0.29 g mol⁻¹), 13% for soybean (to 6.9 g m⁻² d⁻¹ and 0.19 g mol⁻¹), and 13% for potato (to 20.8 g m⁻² d⁻¹ and 0.50 g mol⁻¹). Since wheat was grown at higher densities, transplanting seedlings would not have improved yields. Tests with wheat resulted in a relatively low harvest index of 29%, which may have been caused by ethylene or other organic volatile compounds (VOCs) accumulating in the chamber. Assuming a higher harvest index of 40% could be achieved by scrubbing VOCs, productivity of wheat seed could have been improved nearly 40% to 15.8 g m⁻² d⁻¹ and edible biomass radiation use efficiency to 0.30 g mol⁻¹.