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Water Cement Ratio measures how much water to cement is used in a concrete mixture. In simpler words, it's the relationship between the weight of water and cement in a mix. For structural strength, it's recommended to have a low water-cement ratio. According to IS code 10262, the recommended range for a nominal mix is 0.4 to 0.6. This ratio was discovered in 1918 by Abraham, who gave the following statement, “The strength of concrete is dependent on the net quantity of water used per sack of cement.”
Concrete is a combination of microelements like cement, sand and coarse aggregates. And to achieve high tensile concrete that can withstand all the compressive strength, we need a mixture of these micro particles in adequate proportion. This is where the significance of water becomes evident.
When water is combined with cement, it forms a binding material that envelops and coats the mineral aggregate particles, solidifying into a robust composite mass. Since cement and water are the primary active components in a concrete mix, it's essential to monitor the water quantity to guarantee the structure's durability and resistance to water penetration.
Water's significance in concrete can be summarized as follows:
The appropriate water amount typically falls within the range of 23-25% of the cement quantity. This triggers the hydration process, constituting 15% of the water-cement paste and serving to fill the gaps in the concrete.
Adding more water than the recommended amount will affect the strength of concrete because an increase in the amount of fluid will cause the aggregates to settle down. Once the water evaporates, voids will remain, impacting the concrete's workability and strength.
Workability of Concrete refers to its capacity to be handled, transported, and placed while maintaining its uniformity with minimal loss. It is important as it determines the compression of concrete. Factors affecting the workability of concrete are Water-Cement ratio, aggregate shape and size and admixtures. Using plasticisers & super plasticizers will help increase the workability of the mixture without affecting its W/C ratio.
|
Water-Cement Ratio |
Compressive Strength (kg/cm2) |
|
0.38 |
450 |
|
0.42 |
400 |
|
0.46 |
340 |
|
0.50 |
320 |
|
0.55 |
300 |
The above table shows the relation between the Water-Cement ratio and the compressive strength of the concrete. From the table, it is evident that there is a decrease in compressive strength when there is an increase in the Water-Cement ratio.
Theoretical studies and experiments have proved that for 1 part cement, 0.25 part water is required for hydration, setting and setting of the mortar. And an additional 0.15 to 0.45 parts water (by weight) is required for lubrication and workability of the mix, and it has to be done very carefully.
A Concrete Slump is a device that is used to measure the workability and consistency of the concrete mix.
Given below is the Water-Cement ratio table as per IS code 10262
|
Exposure |
Plain Cement Concrete |
Reinforced Cement Concrete |
||||
|
IS 10262 |
Minimum Cement Content |
W/C ratio |
Grade |
Minimum Cement Content |
W/C ratio |
Grade |
|
Mild |
220 |
0.6 |
|
300 |
0.55 |
M20 |
|
Moderate |
240 |
0.6 |
M15 |
300 |
0.5 |
M25 |
|
Severe |
250 |
0.5 |
M20 |
320 |
0.45 |
M30 |
|
Very Severe |
260 |
0.45 |
M20 |
340 |
0.45 |
M35 |
|
Extreme |
280 |
0.4 |
M25 |
360 |
0.4 |
M40 |
The standard set for Water-Cement ratio lies between 0.4 to 0.6
For calculating the required water quantity for the concrete, we first need to calculate the cement content for the volume.
Let us assume that the amount of cement required is 50 kg (1 bag of cement)
We know that,
Required amount of water = W/C ratio X Cement volume
The required amount of water will be= 0.5 X 50 kg= 25 litres of water.
Now that you've learned how to calculate the Water-Cement ratio, you'll be able to precisely determine the right amount of water needed for your concrete mix, ensuring the desired strength and durability of your construction
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