Quantity of Aggregate in cum = 1.54 / 7 × 4 (where 4 is the ratio of aggregate ) = 0.88 cum. Quantity of Aggregate in kg = 0.88 × 1500 (Density of Aggregate = 1450 to 1550 kg / cum ) = 1320 kg. Quantity of Aggregate in cubic feet = 1.54 / 7 × 4 × 35.314 = 31.07 cft . Alternative way. Quantity of Aggregate in cubic feet = Nos of cement bags × Volume of one bag cement in cft × Ratio of

cement sand and aggregate mix ratio in concrete:- there are two types of mix ratio in in different grade of concrete 1) nominal mix & 2) design mix. Nominal mix concrete IS456 code book suggest lower and normal grade of concrete like M25,M20,M15,M10,M7.5 & M5 have fix cement sand and aggregate ratio.

M 20 is the grade of concrete which ratio is 1 ratio 1.5 ratio 3 okay, one is cement and 1.5 is sand and 3 is aggregate. Assume that we will find the materials calculation for 1 cubic meter (1cu.m),

Aug 03, 2018· Now we start calculation for find Cement, Sand and Aggregate quality in 1 cubic meter concrete. CALCULATION FOR CEMENT QUANTITY; Cement= (1/5.5) x 1.54 = 0.28 m 3 ∴ 1 is a part of cement, 5.5 is sum of ratio Density of Cement is 1440/m 3 = 0.28 x 1440 = 403.2 kg We know each bag of cement is 50 kg

Standard concrete mixes ratio M30 to M45 grade concrete mix ratio is manual designed. E.g., M45, the quantity of cement, sand (fine aggregate), and coarse aggregate are batched in volume as per the design mix. From the above table till M45 grade, these concrete proportions are called as Nominal mix concrete.

Also, Read Difference Between 33, 43 and 53 Grade Cement. Proportioning of Concrete Mix. Determining the proportion of cement, fine aggregate, and coarse aggregate for concrete mix is known as the proportioning of concrete.. The principle of proportioning aggregate is that the smaller particle will fill up the voids between large particles.

Concrete mix ratio of 1:3:3 On mixing 1 part cement, 3 parts sand with 3 parts aggregate produces concrete with a compressive strength of 3000 psi.. On mixing water with the three ingredients, a paste is formed that binds them together till the concrete mix gets hardened.The strength concrete is inversely proportional to the water/cement ratio.

Concrete grades are denoted by M10, M20, M30 according to their compressive strength. The “M” denotes Mix design of concrete followed by the compressive strength number in N/mm 2 “Mix” is the respective ingredient proportions which are Cement: Sand: Aggregate Or Cement: Fine Aggregate: Coarse Aggregate. we already discussed the mix

Standard concrete mixes ratio M30 to M45 grade concrete mix ratio is manual designed. E.g., M45, the quantity of cement, sand (fine aggregate), and coarse aggregate are batched in volume as per the design mix. From the above table till M45 grade, these concrete proportions are called as Nominal mix concrete.

M 20 is the grade of concrete which ratio is 1 ratio 1.5 ratio 3 okay, one is cement and 1.5 is sand and 3 is aggregate. Assume that we will find the materials calculation for 1 cubic meter (1cu.m),

Concrete mix ratios are prescribed ratio of cement, sand and aggregate to get the desired strength of concrete. The volumetric mix ratio of M20 concrete is 1:1.5:3, hence 1 part of cement, 1.5 part of sand and 3 part of aggregate in volume will be taken for preparing concrete.

Concrete mix ratio of 1:3:3 On mixing 1 part cement, 3 parts sand with 3 parts aggregate produces concrete with a compressive strength of 3000 psi.. On mixing water with the three ingredients, a paste is formed that binds them together till the concrete mix gets hardened.The strength concrete is inversely proportional to the water/cement ratio.

Concrete mix ratios are prescribed ratio of cement, sand and aggregate to get the desired strength in concrete. The volumetric mix ratio of M20 concrete is 1:1.5:3, hence 1 part of cement, 1.5 part of sand and 3 part of aggregate in volume is needed to prepare M20 grade concrete.

Sand Volume 0.423 m 3. Coarse Aggregate 0.845 m 3. Water Cement Ratio Calculation. From the IS Code standard, Assuming the water-cement ratio for M20 is 0.55. Therefore required water quantity = Cement Volume X WC Ratio

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