热载下三边固支一边简支矩形薄板的解析解

基于薄板的小挠度理论,根据四边简支矩形薄板在横向变温作用下的挠度和内力解答,通过应用虚功原理和叠加原理,推导了三边固支一边简支矩形薄板在横向变温作用下的挠度方程和内力解析解,从而为以后的工程计算提供了理论依据.     

逆升压电子设备冷却系统的微机控制

逆升压电子设备冷却系统具有两种冷却方式─—冲压空气冷却方式和空气循环冷却方式，必须要有一套控制机构来自动选择系统的冷却方式。文中分析了以往的机械传动控制方法和基于三点温度的微机控制方法，并指出这两种控制方法的缺点。最后提出一种新的基于飞行高度及马赫数的微机控制方法。     

穿透式冷板的传热分析

对航空电子设备上采用的空心冷板冷却系统的传热特性进行了分析求解，得到了空心冷板稳态温度分布表达工和功率－温度－流量关系式，可作为空心冷板系统的设计依据，建立了空心冷板失效的动态温度模型，得到的温度－时间响应特性可用于评估冷板系统耐热冲击性能。     

航天材料热物理性能测试技术的发展现状

根据航天材料热物理性能测试技术的特点 ,系统介绍了国内航天材料热物理性能测试技术的发展状况和发展趋势 ,并详细介绍了目前我国航天材料热物理性能测试领域中所具备的测试技术和测试装置、航天热物理性能所涉及的研究领域和内容以及目前正在开展的研究工作。     

低温度系数标准电阻器的研制

主要介绍了低温度系数标准电阻器的研制,包括采用的电阻合金材料、电阻合金材料的筛选、匹配与加工制作,低温度系数标准电阻器的技术参数、温度系数测量方法,减小温度系数采用的补偿方法,测试结果分析。     

一种测量航空发动机T*4温度的新方法

采用热电偶信号放大集成电路AD595结合镍铬-镍铝热电偶温度传感器,设计了航空发动机T*4温度热电偶测温电路,实现了冷端自动补偿、热电偶断线报警信号输出功能.实测数据分析表明输出幅值大,误差小,重复性好.测量电路简单,具有较强的实用性.     

光电感烟与电子差定温组合探测器的研究

论述了光电感烟与电子式差定温组合探测器的工作原理，设计方法及应用前景，该组合探测器具有对烟、温度的探测功能，并能通过地址编码底座的向控制器发送预报警和报警两种相关的频率信号，极大地提高了火灾自动报警系统早期预报的可靠性，降低了误报率及成本是一种具有良好发展前景的新型火灾探测器。     

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.     

1 000 MW超超临界锅炉结渣特性预测模型

根据1 000 MW超超临界锅炉的实际运行数据,对其结渣特性进行研究和分析。建立了基于煤灰特性的锅炉结渣特性预测模型,包括单一指标和综合指标的各预测模型,这些预测模型能简单、快速地预测锅炉的结渣特性。但对于锅炉燃用煤质不均匀或采用混煤燃烧等情况,这类预测模型的准确性和可靠性将下降。同时根据锅炉运行时的实时监测数据,建立了基于炉膛清洁因子的炉膛结渣特性在线监测模型,通过炉膛出口后各受热面进出口蒸汽温度、流量,以及省煤器出口烟气温度等有关参数,利用反平衡法计算求得此时的炉膛出口烟气温度,然后求出炉膛的平均热有效性系数和炉膛清洁因子,最后根据清洁因子的大小来判断锅炉的结渣特性。该模型不仅能根据锅炉运行实时数据的采集,实现锅炉结渣特性的在线实时监测,而且能对煤质不均匀或采用混煤燃烧等情况的锅炉结渣特性做出较准确的判别。     

Numerical simulations of water spray on flame deflector during the four-engine rocket launching

This paper aims to study on the cooling effect with two types of water spray nozzle on the flame deflector during the four-engine launch vehicle take-off. To accurately simulate the two-phase flow of the rocket gas with multispecies and the water spray, the three-dimensional compressible Navier-Stokes equations, discrete ordinates methods and realizable k-Ɛ turbulence model are used to establish the rocket supersonic plumes impact model. The Eulerian dispersed phase (EDP) model was used to simulate the water spray into the exhaust gas. The accuracy and effectiveness of the gas-liquid flow model are verified by a good agreement between simulation results and experimental data. On this basis, a series of numerical simulation studies under different water injection position are performed. The results show that the high temperature regions, along the axis of engines on the deflector plate, have no significant temperature decreasing effect by water spray from the nozzles mounted on the apex of the deflector, and the high temperature converts a large quantity of water into vapor near the plume boundary, which would decrease the flow conductivity. With the cooling spray nozzle fixed directly to the deflector plate, the temperature decrease effect is obvious and the effect of thermal shock on deflector plate induced by exhaust plume is reduced, so that it can prevent the flame deflector from thermal ablation. The study results provide indepth information and engineering guidance for designing the water spray systems and increasing the safety of the launch process.