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Thermophysical Properties Measurement of Interior Car Materials vs. Temperature and Mechanical Compression

Journal Article
2014-01-1024
ISSN: 1946-3979, e-ISSN: 1946-3987
DOI: https://doi.org/10.4271/2014-01-1024
Published April 01, 2014 by SAE International in United States
Thermophysical Properties Measurement of Interior Car Materials vs. Temperature and Mechanical Compression
Sector:
Citation: Kolich, M., Dooge, D., Doroudian, M., Litovsky, E. et al., "Thermophysical Properties Measurement of Interior Car Materials vs. Temperature and Mechanical Compression," SAE Int. J. Mater. Manf. 7(3):646-654, 2014, https://doi.org/10.4271/2014-01-1024.
Language: English

References

  1. Litovsky E. , Issoupov V. , Kleiman J. , Latham R. et.al. International Thermal Conductivity Conference, ITCC 29/ITES 17 Alabama June 24-27 2007
  2. Zamel N , Litovsky E , Shakhshir S , Li X et.al. Measurement on the trough thermal conductivity of carbon paper diffusion media in the temperature range of −20 to +120°C International Journal of Hydrogen Energy 2011 06
  3. Issoupov V. Thermal optical properties testing for the composite roofing material Report ITL-071610-10159
  4. ASTM STP 1320 Litovsky E. , Litovsky T. , Shapiro M. , Shavit A. Thermal conductivity dependence of MgO heat insulation on porosity in temperature range 500-2000K Third Symposium on Insulation Materials: Testing and Applications, ASTM STP 1320 Graves R. S. and Zarr R.R. Quebec, Canada 1997 292 306 Standard Test Method for Determining Specific Heat Capacity by Differential Scanning Calorimetry
  5. Volohov G. M. and Kasperovich A.S. Monotonic Heating Regime Methods for the Measurement of Thermal Diffusivity Maglic K.D. , Cezairliyan A , and Peletsky V. E. “Compendum of Thermophysical Property Measurement Methods., Vol. 1” Recommended Measurement techniques and Practices New York and London Plenum Press 429 454
  6. Platunov E. S. Instruments for measuring Thermal Conductivity, Thermal Diffusivity, and Specific Heat under Monotonic heating Maglic K.D. , Cezairliyan A , and Peletsky V. E. “Compendum of Thermophysical Property Measurement Methods., Vol. 2” Recommended Measurement techniques and Practices New York and London Plenum Press 347 374
  7. Litovsky , E. , Kleiman J. , and Menn N. , Measurement and analysis by different methods of apparent, radiative and conductive thermophysical properties of insulation materials Journal of the High Temperatures-High Pressures 2003/2004 101 108
  8. Litovsky E. , Issoupov V. , Horodetsky S. , and Kleiman J.I. Express Methods for Determination of Thermophysical Properties of Different Types of Materials within a Temperature Range of −150 to +1800°C ITCC 31, International Thermal Conductivity Conference 2011
  9. Litovsky E. , Kleiman J. 2001 Relative influence of heat transfer mechanisms on apparent thermal conductivity of porous materials Thermal Conductivity 26 Dinwiddie R. B. , M. 2005 DEStech, USA
  10. Litovsky E. , Shapiro M. and Shavit A. Gas Pressure and Temperature Dependences of Thermal Conductivity of Porous Ceramic Materials. Part II. Refractories and Ceramics with Porosity above 30% J. American Ceram Soc. 79 5 1366 1376 1996
  11. Litovsky E. , Gambaryan-Roisman T. , Shapiro M. and Shavit A. Heat Transfer Mechanisms Governing Thermal Conductivity of Porous Materials Trends in Heat, Mass & Momentum Transfer, Research Trends 1997 3 147 167
  12. Gambaryan T. , Litovsky E. , Shapiro M. , Shavit A. Influence of gas emission on heat transfer in porous ceramics Int . J . of Heat Mass Transfer 46/3 385 397 2003

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