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基于能量法的材料法向光谱辐射率测量试验研究

时间:2020-12-19 19:20来源:毕业论文
基于能量法中的傅里叶红外光谱法成功进行了耐高温固体材料的法向光谱辐射率测量试验研究,试验系统由一个傅里叶光谱仪、参考黑体炉、样品加热腔、光路转换装置、火焰切割机等

摘要基于能量法中的傅里叶红外光谱法成功进行了耐高温固体材料的法向光谱辐射率测量试验研究,试验系统由一个傅里叶光谱仪、参考黑体炉、样品加热腔、光路转换装置、火焰切割机等组成,能够实现 1000~1600℃及光谱 2~25μm 范围内固体材料法向光谱辐射率测量。参考黑体用于对傅里叶光谱仪的标定,光谱仪自带抽真空设备,可以减弱空气的影响。系统加热装置为乙炔火焰切割机,样品加热腔用于承载样品。试验系统调试后对 SiC 样品进行了试验研究,得到了样品的法向光谱辐射率。估算了系统的不确定度:发射率相对不确定度低于2.1%。   61043
毕业论文关键词  傅里叶红外光谱仪  能量法  法向光谱辐射率
Title  Experimental study of material normal spectral   emissivity measurement based on energy method. 
Abstract Based on  Fourier transform infrared  (FTIR)  spectroscopy, one of the energy methods, experimental study of normal spectral emissivity measurement of high temperature resistant solid materials was successfully conducted. Experimental  system is  composed by  a FTIR  spectrometer, a  reference blackbody heating furnace, a sample heating cavity, an optical converter and a flame cutting machine. The measurements can be done in the spectral range from 2 to 25μm and in the temperature range from 1000 to 1600℃. The  reference blackbody  heating furnace was employed to calibrate the  FTIR spectrometer with the vacuum which can weaken the influence of air. The heating equipment  of the system is an acetylene  flame cutting machine.  The sample heating cavity is used to carry the samples. Some experiments were done for surface of SiC. The relative uncertainties are evaluated to be better than 2.1%.   
Keywords    FTIR spectrometer  energy method  normal spectral emissivity  

1绪论1

1.1研究背景和应用前景..1

1.2国内外研究现状1

1.3研究方法4

2相关理论介绍.4

2.1发射率及其测量5

2.2傅里叶变换红外光谱学的基本原理..8

3实验装置介绍.10

3.1实验总体装置布置图..10

3.2样品加热腔.10

3.3光路转换装置..12

3.4FTIR光谱仪.13

4实验操作步骤..14

5实验结果..14

5.1闭口黑体不同温度下的光谱仪信号曲线..14

5.2FTIR光谱仪的标定.15

5.3不同温度间隔对R标定的影响17

5.4黑体在不同温度下发射率的标定.18

5.5系统线性度测试19

5.6� 基于能量法的材料法向光谱辐射率测量试验研究:http://www.youerw.com/zidonghua/lunwen_66649.html

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