涡轮泵转子的临界转速研究(Ⅳ)分布质量轴的传递矩阵法

根据旋转的 Timoskenko梁的运动微分方程式 ,导出分布质量轴段的 4× 4阶精确传递矩阵 ,计入轴分布质量的平动惯量、转动惯量、陀螺力矩和剪切变形的影响 ,并计算了三个转子的临界转速。算例的计算结果表明 ,轴模型是否按分布质量考虑、是否计入平动惯量、转动惯量、陀螺力矩和剪切变形 ,对临界转速有明显的差别 ;同时在等截面轴不分段情况下 ,传递矩阵的计算结果和精确解一致性很好 ,表明计算实际转轴临界转速时 ,只需按截面不同划分轴段 ,即所取的轴分段数量少 ,就可以达到很高的计算精度     

热处理及晶粒组织对2A55超高强铝锂合金板材各向异性的影响

采用室温拉伸力学性能测试、X射线织构检测、EBSD分析等方法,对比研究了10 mm与2 mm厚度2A55超高强铝锂合金板材的平面各向异性,阐释热处理制度与晶粒组织对板材各向异性的影响。结果表明,热处理后板材屈服强度最高的取向为轧向（0°）与横向（90°）;Taylor因子能较好地预测固溶态与T6态时效板材屈服强度的各向异性,织构是平面各向异性的重要原因;厚板更高含量的织构与长条状的晶粒形貌导致其各向异性强于薄板;时效热处理使10 mm厚度板材各向异性减弱,使2 mm厚度薄板各向异性增强;T3态、T8态板材的各向异性分别强于T4态、T6态,时效前的预变形增强了板材的平面各向异性。     

空客320货舱衬板复合材料的热解和燃烧特性

使用热重分析仪和锥形量热仪在相同条件下分析对比两种试验材料空客320货舱衬板（玻璃纤维/酚醛树脂）和3240玻纤板-FR4（玻璃纤维/环氧树脂）的热解和燃烧特性。试验结果表明：空客320货舱衬板和3240玻纤板-FR4的热解分为4个和3个阶段,货舱衬板的初始热分解温度、点燃时间及燃烧时长均小于3240玻纤板-FR4。3240玻纤板-FR4的有烟时间、产烟率（RSR）及总产烟量（TSR）大于货舱衬板,且产烟率（RSR）及总产烟量（TSR）分别是货舱衬板的2倍、3.45倍;3240玻纤板-FR4的热释放速率（HRR）及总热释放量（THR）大于货舱衬板,且热释放速率峰值（pk-HRR）及总热释放量（THR）分别是货舱衬板的1.47倍、1.94倍。故空客320货舱衬板在火灾发生后对人的生命安全及飞机的运行安全危险性小。     

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.     

Design of nanofluid-cooled heat sink using topology optimization

The paper presented topology optimization of 2D and 3D Nanofluid-Cooled Heat Sink (NCHS). The flow and heat transfer problem in the NCHS was treated as a single-phase nanofluid based convective heat transfer model. The temperature-dependent fluid properties were taken into account in the model due to the strong temperature-dependent features of nanofluids. An average temperature minimum problem was studied subject to the fluid area and energy dissipation constraints by using the density method. In the method, the design variable is updated according to the gradient information obtained by an adjoint based sensitivity analysis process. The effects of the energy dissipation constraint, temperature-dependent fluid properties and nanofluid characteristics on optimal configurations of NCHS were numerically investigated with following conclusions. Firstly, branched flow channels in the optimal configuration increased with the rise of the allowed energy dissipation. Secondly, temperature-dependent fluid properties were significant for obtaining the appropriate optimal results with best cooling performance. Thirdly, heat transfer performances of optimal configurations were enhanced by reducing the nanoparticle diameter or increasing the nanoparticle volume fraction. Fourthly, the optimal configuration for nanofluid had better cooling performance than that for its base fluid.     

Study of thermo-fluidic characteristics for geometric-anisotropy Kagome truss-cored lattice

The aim of this paper is to provide a comprehensive comparison of the thermal insulation and heat transfer performance for Kagome truss-cored lattice along two perpendicular orientations OA and OB. Three test conditions are conducted under forced air convection for the titanium sandwich panel fabricated by 3 D printing technology. The thermo-fluidic characteristics are further explored by numerical simulation to reveal the underlying mechanisms of heat transfer enhancement.The results indicate that the orientation OB exhibits better thermal insulation than orientation OA under the identical temperature loading, while the latter outperforms the former by up to 20% higher overall heat transfer performance. In particular, the endwalls and lattice core in orientation OA achieve 9.7% and 22.5% higher area-averaged Nusselt number respectively than that in orientation OB for a given Reynolds number. The heat transfer superiority of orientation OA comes from the unique topology which induces the large scale spiral primary flows, facilitating the heat exchange between the cooling air and the surfaces of sandwich panel. However, the complex flow mixing leads to a maximum of 20% higher friction factor in orientation OA than that in orientation OB.     

HKJ涂料的新进展及其应用

在原 HKJ-1、HKJ-2基础上使用了更优异的颜料,适宜的助剂,用恰当的比例,制成双组份的 HKJ-2涂料,同时开发出了新型的 HKJ-3涂料,并将其涂覆于 HKJ-2表面。文章还列表比较了国内、国外的同类涂料,证明 HKJ-2和 HKJ-3涂料处于领先水平。     

涡轮叶片内部微小V肋-凹陷涡复合冷却流动与传热数值模拟

为强化航空发动机涡轮叶片内冷通道传热性能,针对带有微小V肋-凹陷涡高效复合冷却结构矩形通道,采用Abe Kondoh Nagano （AKN） k-ε湍流模型数值模拟研究了肋高与凹陷深度组合对流动传热特性的影响机理。结果表明,当凹陷深度一定,复合结构的强化换热效果随肋高增加而增加,3mm肋高复合结构的传热相比纯凹陷提高了87.1%;当肋高一定,传热随凹陷深度增加先增强后基本保持不变,6mm深凹陷复合结构相比纯V肋提高了52.8%。通过在凹陷上游布置V肋,增强了越过V肋冲入凹陷内流体的湍动能,从而使凹陷前部回流区减小;同时来自微小V肋的涡流与凹陷内部的涡流相互作用,增强了整个流场的动量和热量输运,使通道换热均匀,并相较纯凹陷或纯V肋结构均有显著提升。     

含摩擦和加热的跨声速流动数值模拟研究

喷管中跨声速流动的反应流体动力学是实验和理论研究的一个重要领域.本文主要由两部分构成,在第一部分中对文献[2]中的Murman格式[1]的一般形式进行了简化,得到了守恒形式的欧拉方程,并对其求解方法进行了讨论,同时针对Chattot等的工作展开了分析,并给出了带激波的流动计算结果;而文章的第二部分则研究了包含摩擦、加热以及耗散的跨声速流动,并重点关注了一步Arrhenius化学反应模型下的爆震现象.本文还探究了摩擦力和带燃烧的跨声速流动之间的相互作用,同时详细给出了新的欧拉方程数值求解算法并同已有文献算例进行了对比验证.     

45CrNiMo1V超高强度钢研制及应用

介绍了４５ＣｒＮｉＭｏ１Ｖ超高强度钢的相变温度、冷却转变曲线、热处理工艺参数，物理性能、冷成形和焊接工艺性能及应用状况。为应用该钢提供了有用的试验数据。