多点法测量形状误差的补偿控制系统

经过对误差分离技术理论进行了分析之后,又对误差补偿技术进行了研究,并建立了多点法测量形状误差的补偿控制系统。通过补偿主轴径向误差运动,提高了工件的圆度误差和圆柱度误差。     

正态分布可靠寿命经典近似限的改进

本文给出了正态分布可靠寿命的又一个经典近似下限，经验证，本文所给出的结果的精度比已有的结果精度要高，可提供给可靠性工程人员使用。     

武器系统小样本场合下的区间估计

介绍了区间估计的一般方法 ,针对武器系统试验次数少的特点 ,讨论了小样本条件下武器系统战术技术性能指标的置信区间估计的估计方法 ,并以示例进行了说明     

平面度误差目标函数凸凹性的研究

证明了平面度误差最小区域评定法的目标函数是二维欧氏空间R2 中的连续、不可微的凸函数 ,从而证明了目标函数的全局极小值是唯一的。     

基于SIMULINK的超声速进气道仿真方法

将进气道一维流动的偏微分方程离散为一系列可积分的线性常微分方程,基于此创建了超声速进气道仿真模型,提出了一种基于SIMULINK的进气道仿真方法,模拟了来流参数和燃烧室反压扰动时流场内各个参数的变化规律。对一个一维变几何超声速进气道进行仿真,获得了结尾正激波的稳态特性及动态特性。该模型定义并输出了激波位置,有效地将一维超声速进气道的分布参数问题转换为零维问题,解决了系统分析与控制系统设计中无法实现集总参数的困难。     

两个母体均值之差的区间估计

介绍了对已知母体方差和未知母体方差的两个正态母体及不服从正态分布的两个母体等三种情况的均值之差 μ1- μ2 进行区间估计的原理、方法并给出应用实例     

正态单边可靠性经典精确下限的新程序

本文给出了正态分布单边可靠性经典精确下限的一种新的计算方法及程序。该程序比国标GB4885-85提供的程序能大量节省机时。     

×××机翼主梁的寿命分布研究

本文通过运用Ｗ∧２统计量的检验方法对ＸＸＸ飞机八个失效的机翼主梁寿命分布进行了检验，得出该主梁寿命分布为威布尔分布。     

对数正态分布场合环境因子基于截尾样本的统计分析

本文导出了寿命分布为对数正态分布时基于截尾样本环境因子的点估计和近拟置信限，对所给近似置信区间作了模拟研究。     

An equivalent ground thermal test method for single-phase fluid loop space radiator

Thermal vacuum test is widely used for the ground validation of spacecraft thermal control system. However, the conduction and convection can be simulated in normal ground pressure environment completely. By the employment of pumped fluid loops’ thermal control technology on spacecraft, conduction and convection become the main heat transfer behavior between radiator and inside cabin. As long as the heat transfer behavior between radiator and outer space can be equivalently simulated in normal pressure, the thermal vacuum test can be substituted by the normal ground pressure thermal test. In this paper, an equivalent normal pressure thermal test method for the spacecraft single-phase fluid loop radiator is proposed. The heat radiation between radiator and outer space has been equivalently simulated by combination of a group of refrigerators and thermal electrical cooler(TEC) array. By adjusting the heat rejection of each device, the relationship between heat flux and surface temperature of the radiator can be maintained. To verify this method,a validating system has been built up and the experiments have been carried out. The results indicate that the proposed equivalent ground thermal test method can simulate the heat rejection performance of radiator correctly and the temperature error between in-orbit theory value and experiment result of the radiator is less than 0.5 C, except for the equipment startup period. This provides a potential method for the thermal test of space systems especially for extra-large spacecraft which employs single-phase fluid loop radiator as thermal control approach.