curing of concrete

What is Curing of Concrete and Different Methods of Curing

What is Curing of Concrete and Different Methods of Curing

Curing of Concrete:

As we know that concrete derives its strength by the hydration of cement particles. The hydration of cement is not sudden or short-time action but a process continuing for a long time, Of course, the rate of hydration is fast to start with, but continues over a very long time at a decreasing rate. The amount of hydration and consequently the amount of gel formed depends upon the extent of hydration. we also know that cement requires a water/cement ratio of about 0.23 for hydration and a water/cement ratio of 0.15 for filling the voids in the gel pores. In other words, the water/cement ratio of about 0.38 would be required to hydrate all the particles of cement and also to occupy the space in the gel pores. 

If casted concrete sealed in a container, the water/cement ratio of 0.38 would satisfy the requirement of water for hydration and at the same time, no capillary cavities would be left. However, it is seen that practically a water/cement ratio of 0.5 will be required for complete hydration in a sealed container for keeping up the desired relative humidity level.

Curing of Concrete
Curing of Concrete

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In the field and actual work, it is a different story. Even though a higher water/cement ratio is used, since the concrete is open W atmosphere, the water used in the concrete evaporates and the available in the concrete will not be sufficient for effective hydration to take place particularly hydration is to continue unabated, extra water must be added to replenish the loss of water on account of absorption and evaporation, Alternatively, some measures must be taken by way of provision of impervious covering or application of curing compounds to prevent the loss of water from the surface of the concrete. Therefore, curing is a process of creating a favorable environment during the early period for uninterrupted hydration. For these favorable conditions concrete needs suitable temperature and ample moisture.

“Curing can be defined as assuring the concrete in a moist and warm condition enough so that the hydration of cement can continues. “

More precisely, it can be defined as the process of maintaining satisfactory moisture content and a favorable temperature in concrete during the period immediately following placement.

More precisely, it can be defined as the process of maintaining satisfactory moisture content and a favorable temperature in concrete during the period immediately following placement.

The hydration of the cement process may continue until the desired properties are developed to a sufficient degree to meet the requirement of service.

Curing is being given a place of increasing importance as the demand for high-quality concrete is increasing. If curing is neglected in the early period of hydration, the quality of concrete will experience a sort of irreparable loss. Proper curing at the early age of a concrete period of hydration can be compared to a good and wholesome feeding given to a newborn baby.

Concrete laid in the afternoon of a hot summer day in a dry climatic region is apt to dry out quickly. The surface layer of concrete, exposed to acute drying condition, with the combined effect of hot sun and drying wind, is likely to be made up of poorly hydrated cement with inferior gel structure

The following are the Curing of Concrete methods.

 (1) Water curing

(2) Membrane curing

(3) Application of heat

4) Electrical curing

5) Miscellaneous curing.

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1) Water Curing of Concrete :

This is by far the best method of curing as it satisfies all the requirements of curing, namely, promotion of hydration, elimination of shrinkage and absorption of the heat of hydration.  even if there is a membrane method of curing that is used it is always desirable to apply water curing is done before the concrete is covered with membranes.

The following are the water curing method commonly adopted.

Curing of Concrete
Water Curing
  • Immersion 
  • Ponding
  • Spraying or fogging
  • Wet covering
  • Miscellaneous

The concrete precast elements are normally immersed in curing tanks for a certain duration.

Road slab, roof slab are generally immersed in water by creating small ponds. Column, plastering surface and retaining wall, etc. are cured by spraying water. Some cases when there is a shortage of water for ponding wet covering such as wet gunny bags, hessian cloth, jute matting, straw, etc., are wrapped to a vertical surface for keeping the concrete wet. For horizontal surfaces sawdust, earth or sand are used as a wet covering to keep the concrete in a wet condition for a longer time so that the concrete is not unduly dried to prevent hydration.

2) Membrane Curing:

Curing of Concrete
Membrane Curing

Many times concrete work is carried out in a place where there is an acute shortage of water. The excess use of water for curing is not possible for reasons of economy. As the curing of concrete does not mean the only application of abundant water it means also the creation of conditions for the promotion of uninterrupted and progressive hydration. As we know that the quantity of water, normally mixed for making concrete is more than sufficient to hydrate the cement, provided this water is not allowed to go out from the body of concrete. for the above reason, the membrane can be used to cover the concrete which will effectively seal off the evaporation of water from concrete. It is found that the application of membrane or a sealing compound, after a short spell of water curing for one or two days is sometimes beneficial.

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3) Application of heat:

The concrete strength gaining process does not only be function time but also that of temperature. As the temperature of concrete increases,, it accelerates the hydration process resulting in faster development of strength. The application of dry heat to accelerate the hydration process as the presence of moisture is also an essential requisite. Therefore, setting up the required temperature of concrete and maintaining the required wetness can be achieved by subjecting the concrete to steam curing.

A quick gaining of strength by concrete has many other advantages mentioned below.

  • Concrete is likely to damage only for a short time.
  • Concrete members can cure and handled very quickly.
  • Less area required in the casting yard.
  • For curing a small tank will be sufficient.
  • The structure can be constructed very quickly, the fewer number of formwork will be sufficient or alternatively with the given number of formworks more outturn will be achieved. Prestressing beds can use for further casting.

From the above-mentioned benefits, it is clear that the method of curing concrete by steam curing not only gives a quick result but also technical advantages in the matter of prefabrication of concrete elements.

5) Electrical Curing:

 Another method of curing concrete, which applies mostly to very cold climatic regions, is the use of electricity. This method is not likely to find much application in ordinary climate owing to economic reasons. The electrical curing can be done by passing alternating current (Electrolysis trouble will be encountered if the direct current is used) through the concrete itself between two electrodes either buried or placed on one concrete surface. While performing electrical the care should be taken to prevent the moisture from going out leaving the concrete completely dry. As this method is not likely to be adopted in this country, for a long time to come, this aspect is not discussed in detail.

6) Miscellaneous Methods of Curing:

Chlorides are sometimes used as a surface coating or as an admixture. It can be used as a well-curing medium. This can be used because calcium chloride is a salt, shows an affinity for moisture. The salt available in chloride not only absorbs moisture from the atmosphere but also retains it at the surface. This moisture retained on the surface of concrete prevents the loss of water from evaporation and thereby keeps the concrete wet for a long time to promote hydration. 

If formwork is not removed from the surface of concrete it helps in creating the moist condition for concrete, particularly, in the case of beams and columns. By leaving the formwork as it is and sealing the joint with wax or any other sealing compound prevents the evaporation of moisture from the concrete. These are some process of keeping concrete in moist condition can be considered as one of the miscellaneous methods of curing.

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3 comments

  1. It’s good to learn that water curing is the best way to cure concrete. My wife and I are wondering how we can make our concrete on our house look great again. I’ll be sure to tell her that water curing is the best way to cure concrete.

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