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FINISHING SURFACE INFLUENCE ON STONE THERMAL BEHAVIOUR

Maria Matilde Costa e Silva / Paula Falcгo Neves / Gustavo Paneiro

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b12/s2.049View metrics

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Publication details

Title
FINISHING SURFACE INFLUENCE ON STONE THERMAL BEHAVIOUR
Authors
Maria Matilde Costa e Silva / Paula Falcгo Neves / Gustavo Paneiro
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-08-7
Language
en
Publication type
Conference Paper
Keywords
References26
  1. Özkahraman, H. T. et al (2004). "Determination of the Thermal Conductivity of Rock from P-Wave Velocity. International Journal of Rock Mechanics and Mining Sciences. Technical Note. Elsevier. Vol 41 pp703-708.

  2. Principal Methods of Thermal Conductivity Measurements. Technical note #67. Anter Corporation www.anter.com/TN67.htm.

  3. Incropera, F. P., De Witt, D. P. (1996). Fundamentals of Heat and Mass Transfer. John Wiley, New York, 1996, 832 p.

  4. Ugur, I. E Demirdag, S. (2006). Investigation of the relation between the specific heat capacity and material properties of some natural building and facing stones. International. Journal of Rock Mechanics and Mining. Sciences. Elsevier. Vol 43 pp 831-835.

  5. Aalborg Industries, Technical tables.www.aalborg-industries.com.br. Accessed November 14, 2007.

  6. Johansson, S. & Hellström, G., (2001). Software Package for Evaluation of Temperature Field in Embankment Dams. Manual version 1. CEADSIG Geophysics Research Project. Damtemp.

  7. Waples,D. , and Waples, J. (2004). A review and Evaluation of Specific Heat Capacities of Rocks, Minerals, and Subsurface fluids. Part 1: Minerals and Nonporous Rocks. Natural Resources Research. Vol 13, nº2. pp 97-

  8. Côté, J., Konrad, J.M. (2005). Thermal conductivity of base-course materials. Can. Geotech. J. Vol42. pp 61-78.

  9. Clauser, C., Huenges, E. (1995). Rock Physics and Phase Relations. A Handbook of Physical Constants. ed. by Thomas J.Ahrens.American Geophysical Union. Washington DC.

  10. Gögülü, K., Durutürk, Y. S., Demirci, A., Poyraz, B. (2008). Influences of uniaxial stress and moisture content on the conductivity of rocks. International Journal of Rock Mechanics and Mining Sciences Elsevier. Vol 45 pp 1439-144.

  11. Manual Minolta / Land Cyclops 330/330S/339 Operating Instructions. Minolta.

  12. Pachêco, A.P. (1998). Emissivity of natural surfaces in the thermal infrared. Proceedings IX Symposium on Remote Sensing. INPE, September 11-18, Santos, Brazil. pp1307-1313

  13. Avdelidis, N.P., Moropoulou, A. (2003). Emissivity Considerations in Building Thermography. Energy and Buildings. Vol 35 pp663-667. Elsevier

  14. Özkahraman, H. T. et al (2004). "Determination of the Thermal Conductivity of Rock from P-Wave Velocity. International Journal of Rock Mechanics and Mining Sciences. Technical Note. Elsevier. Vol 41 pp703-708.

  15. Principal Methods of Thermal Conductivity Measurements. Technical note #67. Anter Corporation www.anter.com/TN67.htm.

  16. Incropera, F. P., De Witt, D. P. (1996). Fundamentals of Heat and Mass Transfer. John Wiley, New York, 1996, 832 p.

  17. Ugur, I. E Demirdag, S. (2006). Investigation of the relation between the specific heat capacity and material properties of some natural building and facing stones. International. Journal of Rock Mechanics and Mining. Sciences. Elsevier. Vol 43 pp 831-835.

  18. Aalborg Industries, Technical tables.www.aalborg-industries.com.br. Accessed November 14, 2007.

  19. Johansson, S. & Hellström, G., (2001). Software Package for Evaluation of Temperature Field in Embankment Dams. Manual version 1. CEADSIG Geophysics Research Project. Damtemp.

  20. Waples,D. , and Waples, J. (2004). A review and Evaluation of Specific Heat Capacities of Rocks, Minerals, and Subsurface fluids. Part 1: Minerals and Nonporous Rocks. Natural Resources Research. Vol 13, nº2. pp 97-

  21. Côté, J., Konrad, J.M. (2005). Thermal conductivity of base-course materials. Can. Geotech. J. Vol42. pp 61-78.

  22. Clauser, C., Huenges, E. (1995). Rock Physics and Phase Relations. A Handbook of Physical Constants. ed. by Thomas J.Ahrens.American Geophysical Union. Washington DC.

  23. Gögülü, K., Durutürk, Y. S., Demirci, A., Poyraz, B. (2008). Influences of uniaxial stress and moisture content on the conductivity of rocks. International Journal of Rock Mechanics and Mining Sciences Elsevier. Vol 45 pp 1439-144.

  24. Manual Minolta / Land Cyclops 330/330S/339 Operating Instructions. Minolta.

  25. Pachêco, A.P. (1998). Emissivity of natural surfaces in the thermal infrared. Proceedings IX Symposium on Remote Sensing. INPE, September 11-18, Santos, Brazil. pp1307-1313

  26. Avdelidis, N.P., Moropoulou, A. (2003). Emissivity Considerations in Building Thermography. Energy and Buildings. Vol 35 pp663-667. Elsevier

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