Volume 19, Issue 1 (June 1997)

    Thermal Properties of Commercially Available High-Strength Concretes

    CODEN: CCAOAD

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    Abstract

    This paper summarizes the thermal properties of commercially available high-strength concretes. Five concretes with anticipated compressive strengths in the range of 10 000 to 20 000 psi (69 to 138 MPa) were tested. W/C ratios ranged from 0.26 to 0.43; water-to-total cementitious material ratios ranged from 0.22 to 0.32. The concretes, containing either no mineral admixtures, silica fume only, or both fly ash and silica fume, were delivered by a ready-mix supplier for laboratory testing.

    Tests covered by this paper include thermal conductivity, thermal diffusivity, specific heat, and drying rates. Thermal conductivity was measured using a guarded hot plate (ASTM C 177) at 85, 300, and 700°F (30, 150, and 370°C). Thermal conductivity was also measured using the hot-wire method (ASTM C 1113) at 70, 300, 570, 840, 1110, 1380, and 1830°F (25, 150, 300, 450, 600, 750, and 1000°C). Thermal diffusivity was measured, using the guarded hot plate apparatus, at 95, 250, and 500°F (35, 120, and 250°C). Thermal diffusivity was also measured using a dynamic radial heat flow method continuously from 210 to 1830°F (100 to 1000°C). Thermal properties at high temperatures differed depending on the method used. Specific heat was measured on saturated concrete at ambient temperatures. Rates of drying for initially moist cured specimens were determined by oven-drying thermal conductivity specimens at 150, 185, and 220°F (65, 85, and 105°C) prior to thermal testing. Mass loss was measured at temperatures up to 1740°F (950°C) at heating rates of 4, 36, and 90°F (2, 20, and 50°C) per minute.


    Author Information:

    Gajda, J
    Principal engineer and materials engineer, Construction Technology Laboratories, Inc. (CTL), Skokie, IL

    Dombrowski, K
    Visiting scholar, Portland Cement Association (PCA),

    Van Geem, MG
    Principal engineer and materials engineer, Construction Technology Laboratories, Inc. (CTL), Skokie, IL


    Stock #: CCA10020J

    ISSN: 0149-6123

    DOI: 10.1520/CCA10020J

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    Author
    Title Thermal Properties of Commercially Available High-Strength Concretes
    Symposium , 0000-00-00
    Committee C01