Abstract:A temperature field detection method based on long-wavelength infrared spectrum for hot forging is proposed in the present paper. This method combines primary spectrum pyrometry and three-stage FP-cavity LCTF. By optimizing the solutions of three group nonlinear equations in the mathematical model of temperature detection, the errors are reduced, thus measuring results will be more objective and accurate.Then the system of three-stage FP-cavity LCTF was designed on the principle of crystal birefringence. The system realized rapid selection of any wavelength in a certain wavelength range. It makes the response of the temperature measuring system rapid and accurate. As a result, without the emissivity of hot forging, the method can acquire exact information of temperature field and effectively suppress the background light radiation around the hot forging and ambient light that impact the temperature detection accuracy. Finally, the results of MATLAB showed that the infrared spectroscopy through the three-stage FP-cavity LCTF could meet the requirements of design. And experiments verified the feasibility of temperature measuring method. Compared with traditional single-band thermal infrared imager, the accuracy of measuring result was improved.
Key words:Long-wavelength infrared spectrum;Primary spectrum pyrometry;Three-stage FP-cavity LCTF;Thermal infrared imager;Temperature field of hot forging
张玉存,魏 斌*,付献斌 . 基于长波红外光谱的热态锻件温度场测量方法研究 [J]. 光谱学与光谱分析, 2014, 34(02): 394-400.
ZHANG Yu-cun, WEI Bin*, FU Xian-bin . Research on the Temperature Field Detection Method of Hot Forging Based on Long-Wavelength Infrared Spectrum . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2014, 34(02): 394-400.
