光学高温计

  • 网络optical pyrometer
光学高温计光学高温计
  1. 滤光片对瞬态光学高温计通道线性的影响

    The Influence of Filter on Channel Linearity of Instantaneous Optical Pyrometer

  2. 标准光学高温计检定结果的不确定度评定

    Evaluation of Uncertainty of the Verification Results for the Standard Optical Pyrometer

  3. 利用CCD探测器分别测出常温和高温下金属丝衍射花样相邻暗纹的间距,用光学高温计测出加热时的温度值,从而求出线膨胀系数。

    The distance between adjacent dark fringes of diffraction fringe of wire is determined at low and high temperature by CCD detector , the value of high temperature is measured by pyrophotometer , and the coefficient of linear expansion of wire is calculated .

  4. 影响光学高温计准确读数的因素及其修正方法

    Factors Affecting Correct Reading of an Optical Pyrometer and the Correcting Method

  5. 测量冲击温度的六通道瞬态光学高温计

    An instantaneous optical pyrometer with six channels for the shock temperature measurement in materials

  6. 用于冲击波温度测量的宽动态线性光学高温计

    Potentiometric optical pyrometer A fast pyrometer with wide dynamic linearity for shock temperature measurements

  7. 关于光学高温计检修中几种常见问题的分析和处理

    Maintenance of Optical Pyrometer on a Few Frequently Asked Questions in the Analysis and Processing

  8. 六通道瞬态光学高温计

    Six Channel Instantaneous Optical Pyrometer

  9. 采用六通道瞬态光学高温计系统记录下甲烷气体的高温辐亮度历史,拟合出甲烷的表观辐亮度温度。

    The radiance signals from shocked methane gases were recorded by an instantaneous six channel pyrometer system .

  10. 本文论述用光学高温计分度钨铼热电偶的方法及其测量不确定度。

    This paper covers the calibration method of tungsten-rhenium thermocouples using an optical pyromer as standtard instrument .

  11. 主要功能:使用远红外光学高温计测量,可手动程控。

    Three main functions : the use of far-infrared optical pyrometer measurements , can be manually programmed .

  12. 摘要分析了红外测温仪的测温原理和应用,比较了光学高温计和红外测温仪的性能。

    The thermometry principle and application of infrared thermometer are analyzed , and the comparison of the performance between pyrophotometer and infrared thermometer is made .

  13. 六通道瞬态光学高温计是在可见光和近红外光谱范围内,把光源的热辐射取出六个波段进行测量。

    The six channel instantaneous optical pyrometer is used to measure the thermal radiation of the light source at six bands from visible to near infrared spectrum .

  14. 结果表明计算值与推荐值相当一致,光学高温计的测得值用作者推荐的几何因子作反射修正后与铠装热电偶测得值很接近。

    Based on the presented geometric factor in this paper , the corrected values for the measured temperature by pyrometer agrees with measured temperature by armor thermocouple .

  15. 为了研究金属电爆炸现象,采用多通道光学高温计对金属桥箔和金属桥丝电爆炸产生的等离子体光谱辐射亮度进行了测量。

    For investigating the characteristics of metal explosion , the multichannel optic pyrometer was used to measure the radiation intensity of the plasmas produced by metal conductor explosion .

  16. 阐述光学高温计测温原理、灯丝隐灭式光学高温计制作的参数选择以及光学高温计显示温度与实际温度修正方法。

    The paper illustrates the principle of optics pyrometer , the making preferences of ones with implicit filament , and as well as the modifying method of its display usage and actual temperature .

  17. 利用多通道光学高温计测量了溴仿在37GPa到85GPa压力范围内的温度,并观察了溴仿/单晶氯化钠界面的热驰豫过程。

    Multi channel optic pyrometer was used to observe shock temperatures of bromoform in the pressure range from 37 to 85 GPa and thermal relaxation behavior at bromoform / sodium chloride crystal interface .

  18. 石墨化过程中,炭电极的温度在1200℃以前用Pt/Pt&10%Rh热电偶测量,直到2800℃用光学高温计(波长0.8~1.1μm)测量。

    The temperature of carbon electrodes during the graphitization process is measured with Pt / Pt · 10 % Rh thermocouples up to 1200 ℃ and with an optical pyrometer ( wavelength range 0.8 ~ 1.1um ) up to 2800 ℃ .

  19. 光学辐射高温计有效波长的计算方法及其对测温的影响

    Computational Methods for the Effective Wave Length of the Optical Radiation Pyrometers and the Effect on the Measuriug Temperature