2.64
1400kg/m3
The grading of aggregate influences the mix proportions for a specified workability and water-cement ratio. Coarser the grading leaner will be mix which can be used. Very lean mix is not desirable since it does not contain enough finer material to make the concrete cohesive. The type of aggregate influences strongly the aggregate-cement ratio for the desired workability and stipulated water cement ratio. An important feature of a satisfactory aggregate is the uniformity of the grading which can be achieved by mixing different size fractions.
aiv
The cement density is used in the calculation of the total aggregate content and of the concrete density.Normal concrete has a density around 2400 kg/cubic meter or 4048 lb/cubic yard. There are many different kinds of concrete, many of which are much lighter. Cement is the liquid (or paste like) form, and tends to be much heavier than when it has cured into concrete. "Cement" is not concrete, but can be used to make concrete by mixing with sand, stone and water. The density of cement is about 3120kg/m3.
unit wight of 20mm aggregate
what is the density of 40mm coarse Aggregate
The density of course aggregate is 1560 km/ m^3. The density of something can be found by dividing the mass by the volume.
Approximately 5bags of cement are in 1 cu.m concrete ratio 1:3:6 with 20mm aggregate, water-cement ratio 0.5.
2.64
If by aggregate you mean the 'rock' mixed in to make concrete, then the density is usually about 2.7 g/cm3 .
The density of 5mm aggregate typically ranges from 1,500 to 1,800 kg/m3. This may vary depending on the specific composition of the aggregate and any air gaps present.
5
The weight of 10mm aggregate varies based on the density of the aggregate material. On average, the weight can vary between 1400 to 1600 kg/m3, so for a specific weight, you would need to know the density of the aggregate material being used.
1400kg/m3
You convert everything to compatible units (volume should be in cubic meters or in liters), find the density of aggregate, and multiply the volume by the density to get the mass.
Use a higher density aggregate, or decrease the amount of air entrainment.