References
- Chen S, Zou J, Fu X: ‘Coupled models of heat transfer and phase transformation for the runout table in hot rolling’, J. Zhejiang Univ. Sci. A, Ceram. Soc., 2008, 9, (7), 932–939.
- Sun CG, Han HN, Lee JK, Jin YS, Hwang SM: ‘A finite element model of the prediction of thermal and metallurgical behaviour of strip on run‐out‐table in hot rolling’, ISIJ Int., 2002, 42, 392–400.
- Mukhopadhyay A, Sikdar S: ‘Implementation of an on‐line run‐out table model in a hot strip mill’, J. Mater. Process. Technol., 2005, 169, 164–172.
- Wiskel JB, Ivey DG, Henein H: ‘The effects of finish rolling temperature and cooling interrupt conditions on precipitation in microalloyed steels using small angle neutron scattering’, Metall. Trans. B, 2008, 39B, 116–124.
- Lu J, Ivey DG, Henein H, Wiskel JB, Omotoso O: ‘Extraction and characterization of nano‐precipitates in microalloyed steels’, Proc. 7th Int. Pipeline Conf., Calgary, Alta, Canada, September–October 2008, ASME, IPC2008‐64135.
- Li X, Wiskel JB, Henein H, Ivey DG, Omotoso O: ‘Characterization of microstructure in high strength microalloyed steels using quantitative X‐ray diffraction’, Proc. 7th Int. Pipeline Conf., September–October 2008, Calgary, Alta, Canada, ASME, IPC2008‐64643.
- Gaussorgues G: ‘Infrared thermography’, 61–101; 1995, London, Chapman & Hall.
- Benedict WS, Claassen H, Shaw J: ‘Absorption spectrum of water vapor between 4·5 and 13 microns’, J. Res. NBS, 1952, 49, (2), 91–132.
- Waewsak J: ‘The spectral transmittance due to water vapor, ozone and aerosol of cloudless atmosphere over the central part of Thailand’, Thammasat Int. J. Sci. Technol., 2004, 9, (3), 7–18.
- Love T: ‘Theory and practice of radiation thermometry’, (ed. , DeWitt D P, Nutter G), 198; 1988, New York, John Wiley & Sons.
- Bursell D: ‘IR thermography – how it works’, Photonics Online, Sep. 2007, 1–3.
- Hale GM, Querry MR: ‘Optical constants of water in the 200 nm to 200 μm wavelength region’, Appl. Opt., 1973, 12, 555–563.
- Taylor J: ‘The variation with wavelength of the spectral emissivity of iron and molybdenum’, J. Opt. Soc. Am., 1952, 42, (1), 33–36.
- Bierbrauer F, Chen J: ‘A study of the surface emissivity of oxidised steel using a three layer model’, Proc. Conf. APMC’93, Hsinchun, Taiwan, October 1993, National Chiao University, Vol. 2, 11–14.
- Iuchi T, Furukawa T, Wada S: ‘Emissivity modelling of metals during the growth of oxide film and comparison of the model with experimental results’, Appl. Opt., 2003, 42, (13), 2317–2326.
- Cengel Y: ‘Heat transfer: a practical approach’, 507; 1998, New York, McGraw‐Hill.
- Mikron: ‘Infrared thermometers: theory and construction’, Mikron Technical Literature, Mühlebrücke, Switzerland.
- Colas R, Sellars CM: ‘Computed temperature profiles of hot rolled plate and strip during accelerated cooling’, Proc. Int. Symp. on ‘Accelerated cooling of rolled steel’, (ed. , Ruddle G E, Crawley A F), 121–130; 1988, New York, Pergamon Press.
- Leftwich RF: ‘Theory and practice of radiation thermometry’, (ed. , DeWitt D P, Nutter G), 502; 1988, New York, John Wiley & Sons.
- Wendelstorf R, Spitzer K.‐H, Wendelstorf J: ‘Effect of oxide layers on spray water cooling heat transfer at high surface temperatures’, Int. J. Heat Mass Transfer, 2008, 51, 4892–4901.
- Fillipovic J, Viskanta R, Incropera FP, Veslocki TA: ‘Cooling of a moving steel strip by an array of round jets’, Steel Res., 1994, 65, (12), 541–547.
- Viskanta R, Incorpera FP: in ‘Heat and mass transfer in materials processing’, 455–476; 1992, New York, Hemisphere.
- Prieto MM, Ruiz LS, Menendez JA: Ironmaking Steelmaking, 2001, 28, (6), 474–480.
- Cox SD, Hardy SJ, Parker DJ: Ironmaking Steelmaking, 2001, 28, (6), 463–372.
- Xu F, Gadala MS: Int. J. Heat Mass Transfer, 2006, 49, 3785–3799.
- Liu ZD, Fraser D, Samarasekera IV: Can. Metall. Q., 2002, 41, (1), 663–674.
- Franco G: ‘ Boiling heat transfer during cooling of a moving steel plate by multiple jets’, MSc thesis, Vancouver, BC, USA, University of British Columbia, 2008.
- Cho MJ, Thomas BG, Lee PJ: ‘3‐D numerical study of impinging water jets in run out table cooling processes’, Metall. Mater. Trans. B, 2008, 39B, (4), 593–602.
- ASM International: ‘ASM handbook’, Vol. 1;1993, Materials Park, OH, ASM International.
- Lee JL, Cheny JK, Pan T, Hsieh KC: ISIJ Int., 1994, 29, (3), 281–287.