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Q. How can mass concrete temperature be controlled during construction? A. The four elements of an effective temperature control program, any or all of which may be used for a particular mass concrete project, are: Cementitious material content control, where the choice of type and amount of cementitious materials can lessen the heat-generating potential of the concrete; Precooling, where cooling of ingredients achieves a lower concrete temperature as placed in the structure; Postcooling, where removing heat from the concrete with embedded cooling coils limits the temperature rise in the structure; and Construction management, where efforts are made to protect the structure from excessive temperature differentials by knowledge of concrete handling, construction scheduling, and construction procedures. The temperature control for a small structure may be no more than a single measure, such as restricting placing operations to cool periods at night or during cool weather. On the other extreme, some projects can be large enough to justify a wide variety of separate, but complementary, control measures that can include the prudent selection of a low-heat-generating cement system including: The use of pozzolans; The careful production control of aggregate gradings and the use of large-size aggregates in efficient mixtures with low cement contents; The precooling of aggregates and mixing water (or the batching of ice in place of mixing water) to make possible a low concrete temperature as placed; The use of air-entraining and other chemical admixtures to improve both the fresh and hardened properties of the concrete; The use of appropriate block dimensions for placement; The coordination of construction schedules with seasonal changes to establish lift heights and placing frequencies; The use of special mixing and placing equipment to quickly place cooled concrete with minimum absorption of ambient heat; The evaporative cooling of surfaces through water curing; The dissipation of heat from the hardened concrete by circulating cold water through embedded piping; and The insulation of surfaces to minimize thermal differentials between the interior and the exterior of the concrete. References: ACI 301-20; ACI 207.1R-05; ACI 207.2R-07; ACI PRC-207.4-20 Topics in Concrete: Mass Concrete; Specifications
Q. How can mass concrete temperature be controlled during construction?
A. The four elements of an effective temperature control program, any or all of which may be used for a particular mass concrete project, are:
The temperature control for a small structure may be no more than a single measure, such as restricting placing operations to cool periods at night or during cool weather. On the other extreme, some projects can be large enough to justify a wide variety of separate, but complementary, control measures that can include the prudent selection of a low-heat-generating cement system including:
References: ACI 301-20; ACI 207.1R-05; ACI 207.2R-07; ACI PRC-207.4-20
Topics in Concrete: Mass Concrete; Specifications