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REFERENCES
- Ireland, P.T. and Jones, T.V., (2000), Liquid Crystal Measurements of Heat Transfer and Surface Shear Stress, Meas. Sci. Technol., Vol. 11, pp 969-986.
- Zhong, S. Kittichaikan, Hodsan, H.P. and Ireland, P.T., (2000), Visualization of Turbulent Spots Under the Influence of Adverse Pressure Gradients, Experiments in Fluids, Vol. 28, pp. 385-393.
- Jeschke, P., Biertumpfel, R. and Beer, H., (2000), Liquid Crystal Thermography for Heat-transfer Measurements in the Presence of Longitudinal Vortices in a Natural Convection Flow, Meas. Sci. Technol., Vol. 11, pp. 447-453.
- Ireland, P.T. and Jones, T.V., (1987), Response Time of a Surface Thermometer Employing Encapsulated Thermochromic Liquid Crystals, Journal of Physics E, Vol. 20, pp. 1195-1199.
- Moffat, R.J., (1990), Some Experimental Methods for Heat Transfer Studies, Experimental Thermal and Fluid Science, Vol. 3, pp. 14-32.
- Kobayashi, T. Saga, T. and Doeg-Hee, D., (1998), Time Response Characteristics of Microencapsulated Liquid-crystal Particles, Heat Transfer-- Japanese Research, Vol. 27, pp. 390-398.
- Camci, C., Kim, K. and Hippensteele, S.A., (1992), A new Hue Capturing Technique for the Quantative Interpretation of Liquid Crystal Images used in Convective Heat Transfer Studies, ASME J Turbomachinery, Vol. 114, pp. 765-775.
- Smith, C.R., Sabatino, D.R. and Praisner, T.J., (2001), Temperature Sensing with Thermochromic Liquid Crystals, Experiments in Fluids, Vol. 30, pp. 190-201.
- Wang, Z., Ireland, P.T. and Jones, T.V., (1996), A Color Image Processing System for Transient Liquid Crystal Heat Transfer Experiments, ASME J Turbomachinery, Vol. 118, pp. 421-427.
- Ekkad, S.V. and Han, J.C., (2000), A Transient Liquid Crystal Thermography Technique for Gas Turbine Heat Transfer Measurements, Measurement Science Technology, Vol. 11, pp. 957-968.
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