焊后热处理对高温运行10CrMo910钢管接头持久寿命的影响

本文通过１０ＣｒＭｏ９１０钢大口径厚壁管道高温模拟试验证实，焊后热处理是一个短时超高温运行过程，它使１０ＣｒＭｏ９１０钢管接头组织提前老化，显著降低了接头的持久寿命。试验结果表明，传统的焊后热处理工序应当取消。     

极光区电离层Hall电导率的观测及其在E层电子加热情况下的特征

本文利用欧洲的ＥＩＳＣＡＴ雷达观测资料及与这配合的地磁观测数据，用电离层参数直接计算和地面磁场反演两种方法导出了极区电离层Ｈａｌｌ电导率，特别显示出在强对流电场激发的Ｅ层等离子体不稳定波对电子加热情况下，电导率明显增高。     

微重力下管肋式空间辐射器的整体优化分析

建立了向一重力环境下管肋式空间辐射器传热过程的数学模型，并以单质量散热量最大和热载体驱动功率最小为优化目标，对管式空间辐射器进行了优化分析。     

热沉温度场仿真研究

为了确定热沉温度场控制方法，建立了KM6热沉正常运行状态的数学模型，在MATRIX仿真平台上构造了仿真模型并求解，确定了KM6热沉温度场的动态特性和等价模型，并对热沉的设计提出了若干建议。     

Thermal-structural analysis of regenerativelycooled thrust chamber wall in reusable LOX/Methane rocket engines

To predict the thermal and structural responses of the thrust chamber wall under cyclic work,a 3-D fluid-structural coupling computational methodology is developed.The thermal and mechanical loads are determined by a validated 3-D finite volume fluid-thermal coupling computational method.With the specified loads,the nonlinear thermal-structural finite element analysis is applied to obtaining the 3-D thermal and structural responses.The Chaboche nonlinear kinematic hardening model calibrated by experimental data is adopted to predict the cyclic plastic behavior of the inner wall.The methodology is further applied to the thrust chamber of LOX/Methane rocket engines.The results show that both the maximum temperature at hot run phase and the maximum circumferential residual strain of the inner wall appear at the convergent part of the chamber.Struc tural analysis for multiple work cycles reveals that the failure of the inner wall may be controlled by the low-cycle fatigue when the Chaboche model parameter γ3 =0,and the damage caused by the thermal-mechanical ratcheting of the inner wall cannot be ignored when γ3 ＞ 0.The results of sen sitivity analysis indicate that mechanical loads have a strong influence on the strains in the inner wall.     

火星表面热环境对航天器热控影响分析

火星大气对太阳辐射产生吸收和散射作用，同时还将与火星表面航天器发生对流换热。热设计时难以直接评估对流、辐射和导热三种换热对航天器的影响，从而确定主要的控温途径。在调研火星表面辐射、大气等热环境的基础上，从线性化传热系数和对流辐射比的角度对比分析了辐射、对流和导热对航天器的影响。器表辐射传热系数随光学属性和温度的变化范围为0.3～1.4W/(m2·℃)，对流传热系数随风速变化为0.2～1.5W/(m2·℃)，器内导热传热系数可控制在0.25W/(m2·℃)以下。结果表明，太阳辐射较火星表面和天空辐射而言是主要外热源，航天器表面的辐射和对流换热为两条并联换热途径，两者均可成为主要换热途径，器内导热传热是控制航天器内外隔热的主要可控因素。     

耐高温异氰酸酯/ 环氧树脂固化历程与性能

以异氰酸酯为固化剂固化环氧树脂,通过比较不同固化条件下固化物结构的差异,研究了异氰酸酯与环氧树脂的反应历程;改变异氰酸酯/环氧树脂体系的化学计量比(I/E),采用FTIR/ATR、DSC、DMTA等研究了固化产物的结构与性能。结果表明,异氰酸酯与环氧树脂的固化历程随着温度的升高可分为三个阶段,第一阶段为异氰酸酯的三聚反应;第二阶段是一个复杂的过程,首先环氧树脂和异氰酸酯可反应生成嗯唑烷酮结构,通过嗯唑烷酮环扩链得到端畀氰酸酯基低聚物,可继续发生三聚反应;第三阶段为异氰脲酸酯与残余的环氧基团反应生成嗯唑烷酮结构,异氰脲酸酯六元环向噁唑烷酮五元环的转化是一个可逆的过程。不同的I/E比例可得到结构不同的固化物,不同的结构导致固化物性能的差异:当(I/E)=1.8时,综合力学性能良好,异氰酸酯/环氧树脂/玻璃纤维复合材料的弯曲强度、弯曲模量、层剪强度分别为652.53、33270.63和31.66MPa,优于甲基四氢苯酐/环氧树脂/玻璃纤维复合材料力学性能;当I/E=2.0时,固化物T_g达到了305℃,明显优于传统的环氧树脂固化体系。     

Numerical analysis of hypersonic thermochemical non-equilibrium environment for an entry configuration in ionized flow

A theoretical methodology for thermochemical non-equilibrium flow combing with the HLLC (Harten-Lax-van Leer Contact) scheme was applied to study the hypersonic thermochemical non-equilibrium environment of an entry configuration in ionized flow. A two-temperature controlling model was utilized and the Gupta’s 11 species (N₂, O₂, NO, O, N, NO⁺, N₂⁺, O₂⁺, N⁺, O⁺, e^?) thermochemical non-equilibrium model was taken. Firstly, numerical calculations of hypersonic thermochemical non-equilibrium environments for different aerodynamic shapes were carried out to verify the reliability of the method above. Then, the method was used to research the effects of ionization and wall catalysis on the hypersonic thermochemical non-equilibrium environment of the entry configuration in ionized flow. The shock stand-off distance can be reduced by thermochemical reactions but doesn’t continue to decrease significantly when ionization occurs. The shock stand-off distance calculated by the 11 species model is 4.2% smaller than that calculated by the 5 species (N₂, O₂, NO, O, N) thermochemical non-equilibrium model without considering ionization. Ionization reduces wall heat flux but increases wall pressure a little. The effect of ionization on aerothermal loads is greater than that of aerodynamic loads. The thermochemical reactions of electrons and ions catalyzed at the wall increase wall heat flux significantly but make a small change in wall pressure. The maximum wall heat flux obtained by only considering the electrons and ions catalyzed at the partially catalytic wall condition is 11.8% less than that calculated at the super-catalytic wall condition.     

高主流湍流度下密度比对涡轮导叶全气膜冷却特性的影响

为了研究高主流湍流度下二次流密度比对涡轮导叶全气膜冷却特性的影响,使用热色液晶测量了在主流湍流度为15%,二次流密度比为1.0和1.5下三维涡轮导叶的气膜冷却效率和换热系数。二次流与主流质量流量比为7.0%和12.5%。结果表明:二次流密度比增大可以降低冷气射流的动量,小流量比工况下,在叶片前缘和压力面前半段,动量较低的二次流在高主流湍流度的影响下更易耗散,增大二次流密度比使冷却效率明显降低;大流量比工况下,二次流动量降低使气膜孔后区域冷气贴附性增强,气膜冷却效率和冷气覆盖效果均得到提升。小流量比工况下,二次流密度比增大对叶片表面换热的影响较小;大流量比工况下,二次流密度比增大使吸力面中弦区域和压力面后半段的平均换热系数比分别降低15%和25%。     

热处理对激光直接沉积成形A-100钢基体组织及性能的影响

研究了激光直接沉积成形A-100钢沉积态及热处理态组织,通过调整热处理工艺获得激光直接沉积成形A-100钢回火马氏体+回火贝氏体混合基体组织。不同热处理工艺下性能对比结果表明,相比淬火马氏体组织,回火贝氏体+回火马氏体混合组织具有更高的强度,但塑性有所下降。