density of water,cement,sand,coarse aggregate

density of cement, sand and aggregate

/ density of cement, sand and aggregate. Feb 05. density of cement, sand and aggregate. February 5, 2021; Uncategorized ...


Aggregates comprise the greatest volume percentage in portland-cement concrete, mortar, or asphaltic concrete. In a portland cement concrete mix, the coarse and fine aggregates occupy about 60 to 75% of the total mix volume. For asphaltic concrete, the aggregates represent 75 to 85% of the mix volume.

Calculate Cement Sand & Aggregate - M20, M15, M10, M5

Cement, Sand and Coarse aggregate requirement for M20 Grade concrete. Prescribed Concrete Mix Ratio of M20 grade concrete is 1:1.5:3 as per codebook. Cement = 1 Part; Sand = 1.5 Part; Aggregate = 3 Part; Total dry volume of Material Required = 1.57 cu.m

Cement Concrete Calculator | PCC Calculator | RCC Calculator

The proportions of materials (cement, sand, coarse aggregate) for nominal mix/design mix concrete that are normally used are 1:3:6 or 1:4:8. As strength. RCC or Reinforced Cement Concrete is strengthening of Cement concrete by adding mild steel bars in it.

Aggregates for Concrete - Portland Cement Association

The approximate bulk density of aggregate commonly used in normal weight concrete ranges from about 1200 kg/m3 to 1750 kg/m3 (75 lb/ft3 to 110 lb/ft3) while lightweight concrete aggregates range from 560 kg/m3 to 1120 kg/m3 (35 lb/ft3 to 70 lb/ft3), and heavyweight aggregates is …

How To Calculate Cement, Sand & Aggregates Quantity in

Aug 03, 2018 · Point Should Be Know Before Estimating. Density of Cement = 1440 kg/m3. Sand Density = 1450-1500 kg/m3. Density of Aggregate = 1450-1550 kg/m3. How many KG in 1 bag of cement = 50 kg. Cement quantity in litres in 1 bag of cement = 34.7 litres. 1 …

Physical and Thermal Properties of Aggregate and its

Jan 17, 2021 · Bulk density of both fine and coarse normal aggregates varies within the range of 1450 to 1750 kg/m 3 (90 to 110 lb/ft 3) Bulk density is used when aggregate is to be batched by volume to convert quantities by mass to quantities by volume

Exp 3 & 4 Specific Gravity & Water Absorption - Civil

In this test method we will determine the relative density (i.e. specific gravity) and the water absorption of the coarse aggregates. The knowledge of the specific gravity is important for the concrete technologist to determine the properties of concrete made from such aggregates.

Standard Test Method for Determining the Relative Density

4.1 Bulk relative density (specific gravity) is the characteristic generally used for calculation of the volume occupied by the aggregate in various mixtures containing aggregate including Portland cement concrete, bituminous concrete, and other mixtures that are proportioned or analyzed on an absolute volume basis. Bulk relative density (specific gravity) is used in the computation of voids ...

What is specific gravity and water absorption of fine

What is specific gravity and water absorption of fine aggregate, hi guys in this article know about what is specific gravity and water absorption of fine aggregate. as you know bulk density of fine aggregate coarse aggregate and cement and their specific gravity and water absorption capacity have an important role in designing of mix like M20 m25 M30 and so more—-.


Coarse Aggregates are the aggregates, most of which retained on 4.75 mm IS sieve and contained only so much finer material, which is permitted for the various types described in the specification. Sand or fine aggregate: The sand should consist of natural sand, crushed stone sand or crushed gravel sand, or a combination of any these.

How To Calculate Of Cement, Sand And Aggregate For M10, M15

Weight of Coarse Aggregates = volume x density, Density of Coarse Aggregates = 1520 kg/m^3 Weight of Coarse Aggregates = 0.84 x 1520 = 1276.8 kg (1.28 tonnes) The above calculation you can use for all Grade of Concrete but just you have to put the different Grade of concrete like M10, M 15, M20, M25 etc. just here with grade of concrete you can ...

Density of Coarse Aggregate -

Density of Cement Ordinary Portland cement=1440kg/cum Rapid Hardening cement =1350kg/ cum Bulk density of coarse aggregate=1600 to 1800 kg/ cum;

Effect of Sand Fines and Water/Cement Ratio on Concrete

concrete consisting sand with fines content of 2%, 4%, 6%, 8%, 10% and 12% with three constant water/cement ratios of 0.55, 0.60 and 0.70 were prepared for the study. The amounts of coarse aggregate used were kept constant for all batches. The concrete were mixed using 1m3 drum concrete mixer. Workability test: Slump measurement was taken

Importance of Water-Cement Ratio in Concrete

Water-Cement Ratio is defined as the ratio of the weight of water to the weight of cement. Water/cement ratio as per IS 10262 (2009) for the concrete mix varies from 0.4 to 0.6. 0.7 w/c ratio is also used for pumped concrete. 0.5 w/c ratio indicates, that for every 100 kg of cement, 50 lit. of water is added.

Density of water ccement csand ccoarse aggregate

Cement 1440 kgcum Fine Aggregate 1600 kgcum Coarse Aggregate 1450 kgcum Water 1000 kgcum The dry loose density varies for Considering a concrete mix proportion by volume of 124 ie Cement Fine aggregate Sand Coarse Aggregate is in the ratio of 124 by volume Cement required 01 …

ACI Method of Concrete Mix Design - Procedure and Calculations

Sieve analyses of fine and coarse aggregates. Unit weight (dry rodded density) of coarse aggregate. Bulk specific gravities and absorptions or moisture content of aggregates. Mixing-water requirements of concrete developed from experience with available aggregates. Specific gravities of Portland cement and other cementitious materials, if used.

Calculate Quantities of Materials for Concrete -Cement, Sand

Coarse aggregates = 1650 kg/m3 = 103 lb/ft3 = 2781.166 lb/cubic yards. Specific gravities of concrete materials are as follows: Cement = 3.15. Sand = 2.6. Coarse aggregates = 2.6. The percentage of entrained air assumed is 2%. The mix proportion of 1:1.5:3 by dry volume of materials can be expressed in terms of masses as: Cement = 1 x 1500 = 1500

Aggregate - Civil Engineering

Density is an important parameter for aggregate. For aggregates, density is determined by multiplying the relative density (specific gravity) of the aggregate times the density of water.

Aggregates: Physical Properties and Mechanical Properties

Fine Aggregate Sand and/or crushed stone. < 4.75 mm. F.A. content usually 35% to 45% by mass or volume of total aggregate. Coarse Aggregate Gravel and …

PDF) Basic Properties of Concrete Incorporating Recycled

A concrete mix containing 90% ceramic fine and 10% laterite, as fine aggregate, and 100% of cement and ceramic coarse, as binder and coarse aggregate, respectively, gave higher compressive ...

Exp 6 Relative Density & Water Absorption - Civil Engineers PK

Standard test method for the determination of relative density (i.e. specific gravity) and water absorption of the coarse aggregates. (ASTM C-127-04) Scope & Significance: In this test method we determine the relative density (i.e. specific gravity) and the water absorption of the coarse aggregates.

Replacement of Coarse Aggregate by Using Naturally

mixing of Cement Sand and Aggregate in presence of water. Generally cement is used as binder material and sand as filler material which occupies the voids between aggregate. Aggregate is the most common material in concrete and it occupies more than 70-80% of total volume in concrete and it provides strength to the concrete. Now a days due to huge

Calculate Quantities of Materials for Concrete -Cement

Assuming bulk densities of materials per cubic meter, cubic feet and cubic yards as follows: Cement = 1500 kg/m3 = 93.642 lb/ft3 = 2528.332 lb/cubic yards. Sand = 1700 kg/m3 = 105 lb/ft3 = 2865.443 lb/cubic yards. Coarse aggregates = 1650 kg/m3 = 103 lb/ft3 = 2781.166 lb/cubic yards.

Sieve Analysis of Coarse and Fine Aggregates

Aug 31, 2020 · In this way; more density is achieved in bucket. This example can be extended to concrete in which voids between coarser aggregates are filled by fine aggregates (sand) and even smaller are filled with particles of cement. In this way, a dense mass of concrete is achieved.