2) flying speed
飞行速度
1.
From this methed,the influence of delay time,flying speed,pitch angle and over load to the altitude loss was calculated and some important factors effecting the safty of ground attack target shooting were pointed out, which included big absolute value of the pitch angle,short shooting distance,ling.
具体计算分析了延迟时间、飞行速度、俯仰角、过载等变化对退出地靶射击损失高度的影响程度。
3) flight temperature
飞行温度
1.
According to the BD-1 satellite antenna s flight temperature,this paper gets the SR107-ZK white paint performance degradation data and the value of solar absorptance at the end of life(8 years),predicting the highest temperature of the antenna.
根据北斗一号卫星天线在轨的实际飞行温度,反推出了SR107-ZK白漆的太阳吸收比αs退化曲线,并根据该曲线外推,得到了8年寿命末期的太阳吸收比αs,预测了卫星寿命末期天线反射面的最高温度。
4) flight frequency
飞行强度
1.
Comprehensive evaluation method for service life of military aircraft considering the effects of flight frequency;
考虑飞行强度影响的飞机使用寿命综合评定方法
5) flight velocity
飞行速度
1.
The influence of the experimental conditions on the flight velocity of the ejected plasma was discussed based on the feature of their time-of-flight spectra.
结果表明,在脉冲激光沉积薄膜的情况下,喷射等离子体的飞行速度主要依赖于作用于靶面的激光能量密度。
2.
The effects of air drag,friction drag and lightcraft mass on flight velocity and the mean thrust are discussed.
在激光单脉冲能量特性分析基础上,通过光船运动过程中的受力分析,提出了最小单脉冲能量、最小平均推力和最小冲量的设计方法,提出了光船垂直推进的运动方程以及光船速度和位移的计算方法,计算了空气阻力、摩擦阻力、光船质量等主要因素对飞行速度、平均推力等的影响。
6) flight altitude
飞行高度
1.
Combined with the GJB and the characteristic of the environment control system of airplane, the ventilation and cooling condition of airborne electronic equipments in factual use environment was investigated;Combined with the life profile, task profile and its environment condition, flight altitude, flight mach number, etc, the stress in reliability test and the problems in those standards in.
结合国家军用标准和飞机环控系统的特点对机载电子设备实际使用中的通风冷却条件进行了研究,结合产品的寿命剖面、任务剖面,针对不同任务的环境条件、飞行高度和飞行马赫数等条件,对产品在可靠性试验中通风冷却应力的施加进行了探索性研究,对现行标准中存在的问题进行了对比研究,阐述了在可靠性试验过程中如何模拟其实际使用中的通风冷却条件,制定出合理、可行的通风冷却试验剖面(包括通风气体流量、温度、湿度和洁净度等参数的确定方法) 。
补充资料:远度
1.深远地谋划。 2.指长远的谋划。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条