本文介绍了在风洞光学测压试验中应用虚拟仪器技术对模型表面温度和模型表面光照强度的测量方法。
The paper describes the measurement method for model surface temperature and model surface illumination strength in wind tunnel optical pressure measurement test by the virtual instruments.
利用光学温度控制器使测量硅的峰高信号增强一倍,试验了时间常数、载气流量、常用酸和盐对测硅灵敏度的影响;
Using the optical temperature control accessory, silica peak height signal was enhanced doubly, reducing atomization time, extending useful time of graphite tube.
根据光学测温原理,介绍了如何在实验中用高温计实现爆轰产物温度的测量。
According to the principle of optical temperature measurement, how to use a pyrometer to measure the temperature of detonation products in experiment is described.
提出了用导波光学方法测量交联型聚合物材料的交联温度。
Guided-wave optics method is used to determine the temperature of the crosslinking polymer films.
通过解决激光加工中材料表面温度测量装置的难点,设计了一套新型光学系统,并给出了测量误差分析及结论。
A new optical system is designed for the material surface temperature-measuring device used in laser processing. The measurement error analysis and conclusions are presented.
由于超临界流体温度和压力较高,用于测量其折射率的光学池需要特殊设计。
The optical cell of supercritical fluid is designed to be small diameter cylinder to sustain high pressure, and be long to arrange the device to control temperature.
提出了一种新的测量温度场的光学方法,即像面全息二次曝光法。
A new optical method of temperature field measure using image plane hologram with two times of exposure is presented.
本文叙述了用光学法测量小发动机燃气流火焰温度、燃气流中模型前端的激波温度及不同材料的模型表面温度。
This paper presents a no-contact temperature measurement for a small rocket engine jet exhaust, for a shock wave on nose cone of a model in a jet exhaust and for a model surface of various materials.
液晶热像技术是一种高精度、非接触式、适用于全场温度测量的光学测量方法。
Liquid crystal thermography is a high-resolution, non-intrusive optical technique for full-field temperature measurement.
我们认为,只有在正确选择和应用了这些光学参数后,才能得到正确的和实验可信度极高的温度测量数据。
We believe that the correct temperature measurement results with high level of significance could be achieved only when the spectroscopic parameters were selected and used correctly.
我们认为,只有在正确选择和应用了这些光学参数后,才能得到正确的和实验可信度极高的温度测量数据。
We believe that the correct temperature measurement results with high level of significance could be achieved only when the spectroscopic parameters were selected and used correctly.
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