镜反射凹面及相互可视表面的轨道外热流计算

通过对空间表面所受外热流以及镜反射表面所具有的特性的分析，提出了采用蒙特卡罗法计算镜反射凹面及镜反射相互可视表面的轨道热流的方法，并对半球凹面和两相互垂直可视平板的轨道热流进行了计算。     

用不均匀钢带法测量对流换热系数的测量技术研究

对用不均匀钢带进行换热测量做了研究。制作了贴有14块扇形不均匀加热钢带作为测量面的换热盘。推导了计算不均匀加热钢带热流密度的三种不同的关系式,并对他们做了比较验证。计算了造成主要测温误差的热阻,方法是采用热电偶和热像仪相结合来比较他们的测温结果。对换热盘进行测试验证的结果表明其可以进行旋转盘的换热测量。通过换热实验,采用不均匀钢带加热、热电偶测温和遥测仪采集数据的方法,由测量出的盘面温度分布计算换热系数。     

红外加热笼模拟航天器瞬变外热流的方法研究

以某型号航天器热平衡试验为工程应用背景，采用理论分析、仿真研究和实验研究相结合的方法，建立了红外加热笼和热流计的动态数学模型；在此基础上，讨论了利用红外加热笼作为热流模拟航天器在轨飞行时表面到达热流密度瞬态变化的方法和技术。     

微通道内低马赫数气体的流动与换热特性理论研究

微通道换热器由于换热系数高、质量小等优点,在微电子系统与航空航天等领域具有极大的应用价值,但截至目前人们对微通道内流体的流动与换热特性仍知之甚少.本文针对平行平板式微通道,在连续介质区、低马赫数以及粘性热可忽略的情形下,采用分离变量法导出并简化了均匀热流边界条件下变物性气体的二维层流流动与换热过程的控制方程,进而计算得...     

喷丸处理对铝锂合金激光焊接结构性能的影响

为解决铝锂合金焊后性能弱化问题,推进双激光束双侧同步焊接工艺在国产民用飞机壁板制造中的应用,研究了焊后喷丸、固溶时效热处理+喷丸处理两种共3组焊后强化工艺,通过静力拉伸、疲劳及表面应力状态测试分析,评估强化效果,探讨强化机制。结果显示:纯喷丸强化可显著提高疲劳性能,其中0.20mmN喷丸后细节额定疲劳强度截止值DFRcutoff较焊态提高27.8%,但静力拉伸性能与焊态相差不大;0.36mmN喷丸后DFRcutoff提高了118.5%,但抗拉性能明显下降;热处理+喷丸的组合强化工艺对静力拉伸及疲劳性能均有明显提升,抗拉强度较焊态提高32%,DFRcutoff较焊态提高21.9%,综合性能较好。     

变温热处理过程的相场模拟及其参数标定

航空发动机双性能涡轮盘热处理工艺的研究,大多采用试验的方法建立涡轮盘合金的热处理工艺数据库,但试验法的研究周期长、成本高,提出一种可用于预测变温热处理过程中晶粒演化行为的相场模型。为了模拟不同热处理温度下高温合金的晶粒演化行为,对相场模型进行改进,在相场模型中引入Arrhenius关系,用于描述高温合金晶界运动与温度的量化关系。基于改进的相场模型和拟合的模型参数,计算分析热处理过程中晶粒尺寸的变化和形貌演化规律。结果表明:计算数据与试验数据吻合,晶粒的演化规律与理论分析和试验观察结果一致,证明了拟合的Arrhenius关系中的晶界迁移速率M适用于模拟相应温度下的热处理过程,同时,以上结果也验证了该模型改进方法的可行性及其拟合参数的准确性。     

Experimental investigation on aero-heating of rudder shaft within laminar/turbulent hypersonic boundary layers

The aero-heating of the rudder shaft region of a hypersonic vehicle is very harsh, as the peak heat flux in this region can be even higher than that at the stagnation point. Therefore, studying the aero-heating of the rudder shaft is of great significance for designing the thermal protection system of the hypersonic vehicle. In the wind tunnel test of the aero-heating effect, we find that with the increase of the angle of attack of the lifting body model, the increasement of the heat flux of the rudder shaft is larger under laminar flow conditions than that under turbulent flow conditions. To understand this, we design a wind tunnel experiment to study the effect of laminar/turbulent hypersonic boundary layers on the heat flux of the rudder shaft under the same wind tunnel freestream conditions. The experiment is carried out in the ?2 m shock tunnel(FD-14 A) affiliated to the China Aerodynamics Research and Development Center(CARDC). The laminar boundary layer on the model is triggered to a turbulent one by using vortex generators, which are 2 mm-high diamonds. The aero-heating of the rudder shaft(with the rudder) and the protuberance(without the rudder) are studied in both hypersonic laminar and turbulent boundary layers under the same freestream condition. The nominal Mach numbers are 10 and 12, and the unit Reynolds numbers are2.4 × 10~6 m~(-1) and 2.1 × 10~6 m-1. The angle of attack of the model is 20°, and the deflection angle of the rudder and the protuberance is 10°. The heat flux on the model surface is measured by thin film heat flux sensors, and the heat flux distribution along the center line of the lifting body model suggests that forced transition is achieved in the upstream of the rudder. The test results of the rudder shaft and the protuberance show that the heat flux of the rudder shaft is lower in the turbulent flow than that in the laminar flow, but the heat flux of the protuberance is the other way around,i.e., lower in the laminar flow than in the turbulent flow. The wind tunnel test results is also validated by numerical simulations. Our analysis suggests that this phenomenon is due to the difference of boundary layer velocities caused by different thickness of boundary layer between laminar and turbulent flows, as well as the restricted flow within the rudder gap. When the turbulent boundary layer is more than three times thicker than that of the laminar boundary layer, the heat flux of the rudder shaft under the laminar flow condition is higher than that under the turbulent flow condition. Discovery of this phenomenon has great importance for guiding the design of the thermal protection system for the rudder shaft of hypersonic vehicles.     

Experimental study of effect of post processing on fracture toughness and fatigue crack growth performance of selective laser melting Ti-6Al-4V

For Ti-6Al-4V, a titanium alloy increasingly used in aerospace structure, selective laser melting (SLM) is an attractive additive manufacturing technology, which is attributed to its complex construction capability with high accuracy and good surface quality. In order to obtain qualified mechanical properties, SLM parameters and post processing should be tailored for diverse service conditions. Fracture toughness and fatigue crack growth (FCG) behavior are critical characteristics for damage tolerance evaluation of such metallic structures, and they are affected by post processing technologies significantly. The objective of this study is to obtain the fracture toughness and fatigue crack growth behavior of Ti-6Al-4V manufactured by SLM, and to evaluate the influence of post-SLM thermomechanical treatment and surface machining. Fracture toughness and FCG tests were performed for SLM Ti-6Al-4V in three types of post processing status: as-built, heat treated and hot isostatically pressed (HIPed), respectively. Specimens with as-built and machined surface were tested. The microstructure and fractography were analyzed as well in order to investigate the relevance among manufacture process, microstructure and mechanical properties. The results demonstrate that as-built SLM Ti-6Al-4V presents poor ductility and FCG behavior due to martensitic microstructure and residual stresses. Both heat treatment and hot isostatic pressing improve the plane-stress fracture toughness and FCG performance considerably, while surface machining shows slight effect.     

气动加热参数辨识在型号设计中的应用

针对战术导弹飞行试验的温度实测问题，通过测量弹体表面的温度。引入敏感系数，提出弹体表面气动加热热流的参数辨识方法。解决了该参数辨识定解问题的不适定性，从而获得导弹飞行全程的气动加热热流信息。飞行试验表明，通过参数辨识可获得较现有气动加热计算方法更为精确的结果，能提高设计的准确度。该计算方法在导弹设计中有较大的应用价值。     

非稳定导热问题有限元算法的守恒条件及一种守恒格式

本文对非稳定导热问题的有限元算法的能量守恒条件进行了讨论。认为有限元之解有时出现反常、振荡的原因是对问题时空域的离散化未能使相应格式满足能量守恒原理。依据文中的分析,提出了一种以单元边长做为集中热容阵权因子的守恒格式。验算表明,其稳定、可靠、精度较高。