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Topic I:
Theory, Analysis, and Testing of Thermal Protection Materials
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Journals |
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1. Lee, S. C., 1986, “Radiative Transfer
through a Fibrous Medium: Allowance for Fiber Orientation,” J. Quant. Spectr.
and Radiat. Transfer, 36 (3), pp. 253-263. |
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2.
Lee, S. C., 1988, “Radiation Heat Transfer Model for Fibers Oriented
Parallel to Diffuse Boundaries,” J. Thermophysics and Heat Transfer, 2 (4),
pp. 303-308. |
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3.
Lee, S. C., 1989, “Effect of Fiber Orientation on Thermal Radiation in
Fibrous Media,” Int. J. Heat and Mass Transfer, 32 (2), pp. 311-319. |
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4.
Lee, S. C., 1990, “Scattering Phase Function for Fibrous Media,” Int. J.
Heat and Mass Transfer, 33 (10), pp. 2183-2190. |
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5.
Lee, S. C. 1993, “Enhanced Thermal Performance of Fibrous Insulation
Containing Nonhomogeneous Fibers,” J. Quant. Radiat. Transfer, 50 (2), pp.
199-209. |
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6.
Lee, S. C., White, S., and Cunnington, G. R., 1994, “Effective Radiative
Properties of Fibrous Composites Containing Spherical Particles,” J.
Thermophysics and Heat Transfer, 8 (3), pp. 400-405. |
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7.
Cunnington, G. R. and Lee, S. C., 1996, “Radiative Properties of Fibrous
Insulations: Theory vs Experiment,” J. Thermophysics and Heat Transfer, 10
(3), pp. 460-466. (Also, IV-8). |
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8.
Cunnington, G. R. and Lee, S. C., 1997, “Experimental Verification of a
Theory for the Radiative Properties of High Porosity Fibrous Media,”
Experimental Heat Transfer, Fluid Mechanic and Thermodynamics, pp.
2035-2041. |
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9.
Cunnington, G. R., Lee, S. C., and White, S. M., 1998, “Radiative Properties
of Fiber-Reinforced Aerogel: Theory vs Experiment,” J. Thermophysics and
Heat Transfer, 12 (1), pp. 17-22. (Also, IV-10) |
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10.
Lee, S. C. and Cunnington, G. R., 1998, “Heat Transfer in Fibrous
Insulations: Comparison of Theory and Experiment,” J. Thermophysics and Heat
Transfer, 12 (3), pp. 297-303. |
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Conference Presentations |
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1.
Lee, S. C. and Jimenez, R., 1991, “Thermal Design Characteristics of Fabric
Materials for Applications with Space Nuclear Power Systems,” Proc. of 7th
Symposium on Space Nuclear Power Systems. |
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2.
Yuen, W. W., Takara, E. E., and Lee, S. C., 1992, “Evaluation of Effective
Radiative Properties of Fibrous Composite Materials,” AIAA 27th
Thermophysics Conf., Paper No. AIAA 92-2893. |
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3.
Lee, S. C., White, S., and Grzesik, J., 1993, “Effect of Particle Size in
Composite Materials on Radiative Properties,” AIAA 28th Thermophysics Conf.,
Paper No. AIAA 93-2729. |
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4.
Cunnington, G. R. and Lee, S. C., 1995, “Radiative Properties of Fibrous
Insulations: Theory vs Experiment,” AIAA 30th Thermophysics Conf., Paper No.
AIAA 95-2023. (Also, II-7) |
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5.
Cunnington, G. R., Lee, S. C., and White, S. M., 1996, “Radiative Properties
of Fiber-Reinforced Aerogel: Theory vs Experiment,” AIAA 31st Thermophysics
Conf., Paper No. AIAA 96-1884. (Also, II-9). |
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6.
Cunnington, G. R., Lee, S. C., and White, S. M., 1997, “Radiation Heat
Transfer in Fiber-filled Silica Aerogel: Comparison of Theory vs
Experiment,” 1997 National Heat Transfer Conf., Paper No. AIAA 97-3884. |
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7.
Lee, S. C. and Cunnington, G. R., 1998, “Fiber Orientation Effect on
Radiative Heat Transfer through Fiber Composites,” 7th AIAA/ASME Joint
Thermophysics and Heat Transfer Conf., Paper No. AIAA 98-2840. |
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8.
Lee, S. C. and Cunnington, G. R., 1999, “Scattering of Arbitrarily Polarized
Radiation by a Nonhomogeneous Tilted Infinite Cylinder,” AIAA 33rd
Thermophysics Conf., Paper No. AIAA 99-3681. |
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9.
Cunnington, G. R. and Lee, S. C., 2000, “Thermal Conductivity of
Fiber-Filled Aerogels,” Proc. of Symposium on Energy and Engineering in the
21st Century, Hong Kong. |
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