Page 41 - ICJ Jan 2026
P. 41
TECHNICAL PAPER
[31] Jakob, M. (1955). “Heat transfer”, Volume-I, 4 Edition, International Thermal Expansion Symposium, 17-20 June
th
John Wiley and Sons, New York, USA. 2019, Wilmington, Delaware, USA.
[32] Brewer, H. W. (1967). “General relation of heat flow factors [45] Kim, K. H., Jeon, S. E., Kim, J. K., and Yang, S. (2003).
to unit weight of concrete”, Journal of the PCA Research “An experimental study on thermal conductivity of
and Development Laboratories, Vol. 9, No. 1, pp. 48-60. concrete”, Cement and Concrete Research, Vol. 33, No. 3,
pp. 363-371.
[33] Loudon, A. G. (1968). “U-values in the 1970 guide”, Journal
of the Institution of Heating and Ventilating Engineers, [46] Kodur, V. K. R., and Sultan, M. A. (2003). “Effect of
Vol. 36, No. 1, pp. 167-174. temperature on thermal properties of high-strength
concrete”, Journal of Materials in Civil Engineering, Vol.
[34] Arnold, P. J. (1969). “Thermal conductivity of masonry
material”, Building Research Station Current Paper 1/70, 15, No. 2, pp. 101-107.
Reprinted from Journal of the Institute of Heating and [47] Real, S., Gloria, M., Gomes, A., Rodrigues, M., and Bogas,
Ventilating Engineers, Vol. 37, No. 1-70, pp. 101-109. J. A. (2016). “Contribution of structural lightweight
aggregate concrete to the reduction of thermal bridging
[35] Diamant, R. M. E. (2014). “Thermal and acoustic
st
insulation”, 1 Edition, Elsevier, London, UK. effect in buildings”, Construction and Building Materials,
Vol. 121, pp. 460-470.
[36] Bhattacharjee, B., and Krishnamoorthy, S. (2004).
“Permeable porosity and thermal conductivity of [48] Lee, J. H., Lee, J. J., and Cho, B. S. (2012). “Effective
construction materials”, Journal of Materials in Civil prediction of thermal conductivity of concrete using neural
Engineering, Vol. 16, No. 4, pp. 322-330. network method”, International Journal of Concrete
Structures and Materials, Vol. 6, No. 3, pp. 177-186.
[37] Luikov, A. V. (1980). “Heat and mass transfer”, 1 Edition,
st
Mir Publishers, Moscow, Russia. [49] Morabito, P. (1989). “Measurements of the thermal
properties of different concretes”, High Temperatures-
st
[38] Pratt, A. W. (1982). “Heat transmission in buildings”, 1 High Pressures, Vol. 21, No. 1, pp. 51-59.
Edition, John Wiley and Sons, Chichester, England.
[50] Newman, J., and Owens, P. (2003). “Properties of
[39] Bhattacharjee, B. (1991). “A study on the influence of void lightweight concrete”, In John Newman and Ban Seng
and moisture content of some building materials on their Choo (eds.) Advanced Concrete Technology-Processes,
thermal transport and properties and implications on Elsevier Butterworth Heinnemann, Amsterdam,
thermal performance of building envelope”, PhD Thesis, Netherlands.
Indian Institute of Technology (IIT) Delhi, New Delhi, India.
[51] Bhattacharjee, B. (2016). “Influence of pore size
[40] Diamond, S. (2000). “Mercury porosimetry: An distribution on the properties of a stabilized soil cement
inappropriate method for the measurement of pore system”, 4 GeoChina International Conference, 25-27
th
size distributions in cement-based materials: A review”, July 2016, Shandong, China.
Cement and Concrete Research, Vol. 30, No. 10,
pp. 1517-1525. [52] Bhattacharjee, B. (2012). “Sustainability of building fabric
in tropical climates: Role of moisture influence on thermal
[41] Guiffant, G., and Flaud, P. (1986). “Numerical model for properties”, 2 International Conference for Sustainable
nd
the determination of effective thermal conductivity of Design, Engineering and Construction (ICSDEC 2012), 7-9
composite materials”, International Communications in November 2012, Texas, USA.
Heat and Mass Transfer, Vol. 13, No. 6, pp. 675-685.
[53] Yoganand, V., and Bhattacharjee, B. (2016). “Light weight,
[42] Paipetis, S. A. (1981). “Mathematical modelling of high strength ashcrete with bottom ash”, The Indian
composites”, In Holister G. S. (ed.) Developments in Concrete Journal. Vol. 90, No. 7, pp. 44-51.
Composite Materials-2: Stress Analysis, Applied Science, [54] Padala, S. K., Deshpande, S. J., and Bhattacharjee, B.
London, UK.
(2021). “Assessment of setting characteristics, water
[43] Marshall, A. L. (1972). “The thermal properties of absorption, thermal performance and compressive
concrete”, Building Science, Vol. 7, No. 3, pp. 167-174. strength of energy-efficient phase change material (PCM):
Ashcrete blocks”, Sadhana, Vol. 46 No. 2, pp. 1-19.
[44] Bhattacharjee, B. (2022). “Influence of aggregate rock
type, water to cement ratio on thermal conductivity of [55] Padala, S. K., Reddy, M., and Bhattacharjee, B. (2021).
structural concrete”, In John McCaffrey and Jason Saienga “Mix proportioning PCM concrete for workability and
th
(eds.) Material Application Proceedings, 34 International performance evaluation”, Journal of The Institution of
nd
Thermal Conductivity Conference, jointly with, 22 Engineers (India): Series A, Vol. 102, No. 4, pp. 1061-1072.
46 THE INDIAN CONCRETE JOURNAL | JANUARY 2026
