Curing of Concrete is a method by which the concrete is protected against loss of moisture required for hydration and kept within the recommended temperature range. Curing will increase the strength and decrease the permeability of hardened concrete. Curing is also helps in mitigating thermal and plastic cracks, which can severely impact durability of structures
A curing practice involves keeping the concrete damp or moist until the hydration of concrete is complete and strength is attained. Curing of concrete should begin soon after initial setting time of concrete or formwork/shuttering is removed and must continue for a reasonable period of time as per the specified standards, for the concrete to achieve its desired strength and durability
Methods to Cure Concrete
Depending upon the site constraints, type of structure and other material parameters, different methods of curing are adopted at site. Methods of curing concrete fall into the following categories:
Water curing prevents the water loss from the concrete surface by uninterrupted wetting of the exposed surface of concrete. It’s done by spraying or sprinkling water or curing agents over the concrete surface to ensure that the concrete surface is continuously moist. Moisture from the body of concrete is retained from evaporating and contributes to the strength-gain of concrete.
Water curing methods are:
- Sprinkling, fogging & mist curing
- Wet coverings
Curing by wet covering
Curing by Fogging
Curing by ponding
Membrane curing lessens moisture loss from the concrete surface by wrapping it with an impermeable membrane. Curing compounds are wax, acrylic and water based liquids. These are sprayed over fresh concreting to create an impermeable membrane this will reduces the loss of wetness from the concrete.
Membrane curing methods are:
- Plastic sheeting
- Steam Curing
Steam curing keeps the surface moist and raises the temperature of concrete to quicken the rate of strength achievement. It is a process done to speed up the early hardening of concrete and mortars by subjecting it to steam and humidity. This method is most commonly used for precast concrete plants where products are mass-produced and the turnaround or striking time of the formwork is very quick.
It is witnessed that at construction sites, curing of concrete is left to the decision and comfort of the unskilled manual worker. Site engineers and supervisors should put additional effort to guarantee that curing is not overlooked at site. They should arrange for the essential resources to retain satisfactory levels of curing, by using best techniques available.
Why Curing of Concrete is Necessary?
- Enhance Hydration of Concrete to achieve desired Strength
- Improved durability of concrete by reducing cracks
- Higher serviceability performance by increasing abrasion resistance
- Improved microstructure by developing better hydrate gels and solid mass.