The surface temperature of casting slab is an important parameter in the metallurgy field. Because the surface emissivity is uncertain and also unknown, it is difficult to measure the slab surface temperature accurately. A method based on preceded reflector and multi-wavelength was put forward to deal with the difficulty in surface temperature measurement of casting slab. On the premise of preceded reflector and non-preceded reflector, the method establishes the radiation energy equations and works out the emissivity and temperature in the equations. Also, the multilayer modeling of casting slab surface and multiple reflection-absorption process modeling were built by Monte Carlo method. The temperature measuring method had been applied in the continuous casting field. In order to verify the measured result, the thermal imaging method was adopted when the slab surface emissivity was set by repeated tests. Finally, the measured and verified temperature curves keep a same tendency and the error of the values is lower than 5℃. The comparison result shows that the method can measure temperature accurately.
参考文献
| [1] | |
| [2] | Yue-Feng Zhao,Tian-Hu He. Effect of Critical Current Density and Critical Temperature on ac Susceptibility[J]. Journal of Superconductivity and Novel Magnetism, Online First?, 15 September 2010.[2] Shi Huanxing. Metallurgical casting technology [M]. Beijing: Metallurgical Industry Press. 1998: 392-399. [3] J.E.CAMPORREDONDO S., A.H. CASTILLEJOS E., F.A. ACOSTA G., etal. Analysis of Thin-Slab Casting by the Compact-Strip[J]. METALLURGICAL AND MATERIALS TRANSACTIONS, 2004, 35B: 541-560.[4] MARCIAL GONZALEZ, MARCELA B.GOLDSCHMIT, ANDREA P.ASSANELLI, etal. Modeling of the Solidification Process in a Continuous Casting Installation for Steel Slabs[J]. METALLURGICAL AND MATERIALS TRANSACTIONS B, 2003, 34B: 455-473.[5] CHEN Liang, XIE Zhi, YANG Qing-chuan. Designing of a Temperature Measurement Equipment of the Temperature on the Surface of Casting Blank Based on the Line-Array CCD[J]. TRANSACTIONS OF SHENYANG LIGONG UNIVERSITY, 2005,24(2):10-12.[6] LIU Qingguo, SUN Jiquan, WEN Chongzhe, etal. STUDY OF ON-LINE MEASUREMENT OF SURFACE TEMPERATUREOF CONTINUOUS CAST SLAB[J]. IRON AND STEEL, 1998, 33(2):18-21.[7] Gao Fengxiang, Wang Changsong, Wu Xiuyong, etal. Setting of Object Surface Temperature of Casting Slab Based on Support Vector Regression[J]. SPECIAL STEEL, 2009, 30(6): 4-6.[8] Li Zhan-ying, Xi Lan-xia, Chen Jun, etal. Study on Flame Temperature Measurement of Pyrotechnics Using Multi-Spectral Themometer[J]. Spectroscopy and Spectral Analysis, 2010, 30(8): 2062-2064.[9] Yang Chun-ling, Yang Mao-hua, Hu Yan, etal. Application of Wavelet Neural Networks to Multi-wavelength Radiation Thermometry[J]. ACTA METROLOGICA SINICA, 2003, 24(4):303-306.[10] Y.H.Zhou ,Y.J.Shen , Z.M.Zhang a,etal. A Monte Carlo model for predicting the effective emissivity of the silicon wafer in rapid thermal processing furnaces[J]. International Journal of Heat and Mass Transfer , 2002, 45.[9] Xiao Hu, Yoshihiko Nonomura, Masanori Kohno. Monte Carlo Simulation[J]. 2007, Springer Handbook of Materials Measurement Methods, Part E:1057-1096.[11] DONG YongWei, LI YanGuo, WU BoBing, etal. Light Collection of the POLAR detector[J]. SCIENCE CHINA Physics, Mechanics&Astronomy, 2010, 53(1):43-46.[12] G. Ska?ej and C. Zannoni. External field-induced switching in nematic elastomers: A Monte Carlo study[J]. The European Physical Journal E: Soft Matter and Biological Physics, 2006, 20(3):289-298.[13] Yu. E. Lozovik, I. L. Kurbakov, G. E. Astrakharchik,etal. Bose condensation of two-dimensional dipolar excitons: Simulation by the quantum Monte Carlo method[J]. Journal of Experimental and Theoretical Physics, 2008, 106(2):296-315.[14] Seppo Louhenkilpi, Mika Makinen, Sami Vapahti, Tuomo Raisanen, Jukka Laine, 3D steady state and transient simulation tools for heat transfer and solidification in continuous casting, Materials Science and Engineering A 413-414 (2005), 135-138.Hongming WANG, Guirong Li, Mathematical Heat Transfer [15] Model Research for the Improvement of Continuous Casting Slab Temperature, ISIJ International,Vol.45(2005),No.9, 1291-1296.[16] J.I.Ramos, A finite volume method for one-dimensional reaction-diffusion problems. Applied Mathematics and Computation, Vol 188, 2007, 739-748. |
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