Hot Weather Concreting Practices for Concrete Producers
Concrete producers are well aware of the difficulty of delivering, handling, placing, finishing and curing concrete, especially during the hot summer months. While producers work hard to keep concrete temperatures down and use admixtures to minimise slump loss, there are still many things that can go wrong if precautions are not taken during hot weather.
Conditions such as high ambient temperature, high concrete temperature, low relative humidity and high wind speed tend to impair the quality of freshly mixed or hardened concrete by accelerating the rate of moisture loss and rate of cement hydration, or otherwise causing detrimental results. For example, the combination of heat, wind and low humidity can cause water to evaporate too quickly from the surface of the concrete, leading to unattractive plastic shrinkage cracks. Fortunately, there are measures you can take to protect against these problems.
Concrete temperature. Every effort should be made to keep delivered concrete temperature as low as possible. Concrete temperature can typically be reduced by 1°F (0.5°C) if any of the following happens:
- 8°F (4°C) reduction in cement temperature
- 4°F (2°C) reduction in water temperature
- 2°F (1°C) reduction in aggregate temperature
Since the greatest portion of concrete is aggregate, its temperature has the greatest impact on the concrete temperature. Shaded storage of aggregates and fog spraying of coarse aggregate with cool water can help lower aggregate temperatures. However, the wetting of aggregates can cause surface moisture variability, so moisture tests or the use of moisture probes are necessary for correct batch adjustments.
In extreme cases, the use of chilled water or even ice during the batching process may be necessary. Chilled water can reduce concrete temperature by up to 10°F (6°C) and ice can reduce temperature by as much as 20°F (12°C).
Retempering. Additional water, not to exceed the maximum allowable water content, may be added at the jobsite if the slump is less than the specified minimum. Adding chemical admixtures, such as high range water reducers, can be very effective in maintaining workability, without risk of exceeding the maximum water content specified.
Retarding admixtures. Concrete is subject to slump loss over time, and the use of a set retarding admixture in the concrete is a simple adjustment to make. The admixture slows the rate of cement hydration, thus reducing the rate of slump loss.
Admixtures for flatwork. In hot, dry and/or windy conditions, concrete used in flatwork needs to set soon after placement to avoid plastic shrinkage cracking or crusting of the surface. Under these conditions, CONCERA™ admixtures can provide the necessary slump and slump retention, without retardation. The concrete can be placed with minimal effort and can be finished quickly so that curing can start before the surface suffers any damage as a result of environmental exposure.
For more information, check into concrete specifications in your region.