Cold Weather Concreting

Cold Weather concreting

1.  WHAT is Cold Weather? 

 Cold weather is defined as a period when the average daily temperature falls below 40°F [4°C] for more than three successive days. These conditions warrant special precautions when placing, finishing, curing and protecting concrete against the effects of cold weather. Since weather conditions can change rapidly in the winter months, good concrete practices and proper planning are critical.

2. Why Consider Cold Weather?

 In its plastic state, concrete will freeze if its temperature falls below about 25°F [-4°C]. If plastic concrete freezes, its potential strength can be reduced by more than 50% and its durability will be adversely affected. Concrete should be protected from freezing until it attains a minimum compressive strength of 500 psi [3.5 MPa], which is about two days after placement for most concrete maintained at 50°F [10°C]. Low concrete temperature has a major effect on the rate of cement hydration, which results in slower setting and rate of strength gain. A good rule of thumb is that a drop in concrete temperature by 20°F [10°C] will approximately double the setting time. The slower rate of setting and strength gain should be accounted for when scheduling construction operations, such as form removal.Cement hydration is a chemical reaction that generates heat. Newly placed concrete should be adequately insulated to retain this heat and thereby maintain favorable curing temperatures. Large temperature differences between the surface and the interior of the concrete mass should be prevented as cracking may result when this difference exceeds about 35°F [20°C]. Insulation or protective measures should be gradually removed to avoid thermal shock .

 3. How to place concrete in cold weather?

1. The ready mixed concrete producer can control concrete temperature by heating the mixing water and/or the aggregates 
2. Placing concrete in cold weather provides the opportunity for better quality, as cooler initial concrete temperature will typically result in higher ultimate strength. 
3. Slower setting time and strength gain of concrete during cold weather typically delays finishing operations and form removal.
4.  Chemical admixtures and other modifications to the concrete mixture can accelerate the rate of setting and strength gain. Calcium chloride is a common and effective accelerating admixture, but should not exceed a maximum dosage of 2% by weight of cement.
5.  Accelerating the rate of set and strength gain can also be accomplished by increasing the amount of portland cement or by using a Type III cement (high early strength).
6. The relative percentage of fly ash or ground slag in the cementitious material component may be reduced in cold weather but this may not be possible if the mixture has been specifically designed for durability.
7. Concrete should be placed at the lowest practical slump as this reduces bleeding and setting time.
8. Adequate preparations should be made prior to concrete placement. Snow, ice and frost should be removed and the temperature of surfaces and metallic embedments in contact with concrete should be above freezing. This might require insulating or heating subgrades and contact surfaces prior to placement.
9.  Materials and equipment should be in place to protect concrete, both during and after placement, from early age freezing and to retain the heat generated by cement hydration. Insulated blankets and tarps, as well as straw covered with plastic sheets, are commonly used measures.
10.  The concrete surface should not be allowed to dry out while it is plastic as this causes plastic shrinkage cracks.Subsequently, concrete should be adequately cured. Water curing is not recommended when freezing temperatures are imminent. Use membrane-forming curing compounds or impervious paper and plastic sheets for concrete slabs.

•  Cold Weather Concreting Guidelines 

1.  Use air-entrained concrete when exposure to moisture and freezing and thawing conditions are expected.
2.  Keep surfaces in contact with concrete free of ice and snow and at a temperature above freezing prior to placement.
3.  Place and maintain concrete at the recommended temperature.
4.  Place concrete at the lowest practical slump.
5.  Protect plastic concrete from freezing or drying
6.  Protect concrete from early-age freezing and thawing cycles until it has attained adequate strength.
7.  Limit rapid temperature changes when protective measures are removed