Aggregates (Part - 01).pdf

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AGGREGATES
Concrete is TWO Phase material – Paste & Aggregates
Paste – Cement + Water
70 TO 80% OF Concrete is aggregates
Mostly Naturally available (In Future-Artificial Aggregates)
Reduce Shrinkage in concrete
Reduce cost
Supposed to be INERT (Few Agg are not INERT – Alkali Agg Reaction)
Important to know the properties of aggregates responsible for
behavior in concrete

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 Issues to be Studied
Classification Specific Gravity and Bulk Density
Size Thermal Properties
Source Bulking Factor
Shape Soundness
Strength Cleanliness
Texture Chemical Properties
Sieve Analysis – Grading
Moisture Content

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 Classification of Aggregates
Natural – River Sand, Gravel, Crushed Rock
Artificial – Broken Brick, Air cooled Slag, Sintered Fly Ash, Bloated
Clay, Shale, Construction & Demolished waste etc., (C & D Waste)
Natural – Igneous rocks, Sedimentary rocks, Metamorphic rocks
Igneous rocks – Solidification of molten rock – Granite, Basalt etc.,
Sedimentary rocks – Deposition of weathered remains of rocks –
Limestone, Clay, Sandstone, Shale etc.,
Metamorphic rocks – Transformation of existing rock – Gneiss, Slate,
Marble etc.,

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 Size of Aggregates
Larger the size of aggregates – lower the consumption of cement,
water, drying shrinkage – Higher Strength of Concrete
Factors influencing – Thickness of section, Spacing of reinforcement,
Clear cover, Mixing, handling & Placing techniques.
Normally not more than 0.25 times thickness of the member
< 4.75 mm – Fine aggregates, > 4.75 mm - Coarse Aggregates
Maximum size of aggregate – 80 mm – Normally used in dams
Size of aggregate is 5 mm less than the spacing of the reinforcement /
Clear Cover
For RCC normally – Nominal Size of aggregate shall be 20 mm.
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 Congested Reinforcement
Size of aggregate should be 5 mm less
than the spacing of steel & cover to steel

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SHAPE OF THE AGGREGATES

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Shape of the aggregate
Rounded – Water worn, River sands, Desert sands – Lower surface
area - Better workability – No interlocking – Lower tensile strength –
Satisfactory compressive strength
Angular – Naturally irregular – more surface area – Lower workability
– Better interlocking – better tensile strength - Desirable
Flaky & Elongated – Not desirable
Quantification of Flakiness Index & Elongation Index
IS 460-1985- Indian Standards For Test Seives
ASTM – American Society for Testing Materials

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Texture of Aggregate

Rough Texture – More Friction – Smooth Texture – Less Friction –
Requires more paste for workability Requires less paste for workability

Rough Texture – Irregular shaped – desirable

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 Grading of Aggregate – Sieve Analysis

Uniform Graded – Well Graded – All
Single Size Aggregate – Sizes of Aggregate –
Not Desirable Most Desirable
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Grading of Aggregates
Minimum Porosity of concrete – Topic active research
Maximum strength
Minimum permeability – Maximum durability
Minimum consumption of cement – Improve durability
Good workability – Good compactibility – Good Cohesivity - Hence
good strength & durability
IS 383 – 2016
IS 2386 (1) - 1963

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GRADING OF AGGREGATES
1. IS 460 Part 1- 1985 (Reaffirmed 1998) Specification for Test Sieves
2. IS 383 – 2016 – Specifications for coarse and fine aggregate from natural sources for concrete
3. IS 2386 – 1963 - METHODS OF TEST FOR AGGREGATES FOR CONCRETE
Part I - Particle Size and Shape
Part II-Estimation of DeIeterious Materials and Organic Impurities
Part III - Specific Gravity, Density, Voids, Absorption and Bulking
Part IV - Mechanical Properties
Part V - Soundness
Part VI - Measuring Mortar Making Properties of Fine Aggreg: _ :’
Part VII - Alkali Aggregate Reactivity
Part VIII - Petrographic Examination

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Sieve Analysis - Sizes
80 mm
40 mm
20 mm
10 mm
4.75 mm
2.36 mm
1.18 mm
600 Microns
300 Microns
150 Microns
Pan

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CALCULATION OF FINENESS MODULUS (FM)
Wt. Cumulative % Wt. Percentage
Sieve Size (mm) Retained(gm) %Wt. Retained Retained Passing
80 0 0.00 0.00 100.00
40 200 6.67 6.67 93.33
20 844 28.13 34.80 65.20
10 823 27.43 62.23 37.77
4.75 582 19.40 81.63 18.37
2.36 551 18.37 100.00 0.00
1.18 0 0.00 100.00 0.00
0.6 0 0.00 100.00 0.00
0.3 0 0.00 100.00 0.00
0.15 0 0.00 100.00 0.00
3000 685.33
FINENESS
MODULUS= FM 6.85
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GRADING CURVES
100.00

90.00

80.00

PERCENTAGE PASSING
70.00
POORLY
GRADED
60.00

50.00

40.00 WELL
GRADED
30.00

20.00

10.00

0.00
0.1 1 10 100

log(SEIVE SIZE)
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 IS 383 - 2016

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IS 383 - 2016

Zone – I – Coarser Fine
Aggregate – Not Suitable for
Concreting

Zone – II & III – Suitable for
Concreting ( FM = 3- 3.2)

Zone – IV – Finer Fine
Aggregate – Suitable for
Plastering Only

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Flakiness and Elongation Index
Cl. 4.1 of IS 2386 (1) - The flakiness index of an aggregate
is the percentage by weight of particles in it whose least
dimension ( thickness ) is less than three-fifth (0.6) of their
mean dimension. The test is not applicable to sizes smaller
than 6.3 mm.
Cl. 5.1 of IS 2386 (1) - The elongation index of an aggregate
is the percentage by weight of particles whose greatest
dimension ( length ) is greater than one and four-fifths (1.8)
times their mean dimension. The elongation test is not
applicable to sizes smaller than 6.3 mm.

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Quantification of Flaky and Elongated Aggregates

Cl. 5.3 of IS 383 –
2016
The combined
flakiness and
elongation index shall
not exceed 40 percent
for uncrushed or
crushed aggregate.

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Determination of Flakiness Index

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Determination of Elongation Index

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 If the paste is weaker than aggregate –
Strength of Aggregate cracking through the paste – Normal
Strength Concrete – Strength Depends
on strength of paste

If the paste is stronger than aggregate
– cracking through the aggregate –
High Strength Concrete – Strength
Depends on the Strength of Aggregate

Quantify the Strength
For Roads – Stronger aggregates
1. Aggregate Crushing Value For Buildings – Lesser Strength of
2. 10% fines value
3. Impact Strength of aggregate - Roads aggregates is required
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Aggregate Crushing Strength IS 2386(IV)
Resistance of an aggregate to crushing under a gradually applied
compressive load.
Surface dry aggregate passing 12.5 mm and retained on 10 mm sieve
Fill the aggregate in 15 cm open ended steel cylinder and plunger
Straight metal tamping rod 16 mm dia, 45 to 60 cm length, rounded at one
end, 25 blows each time – cylinder is filled in 3 layers
Compression testing machine capable of applying 40 tons in 10 minutes
Material is sieved through 2.36 mm sieve.
Aggregate Crushing Value = (B/A)*100
B – Weight of material passing through 2.36 mm sieve
A – Weight of surface dry sample

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Cl. 5.4 of IS 383 - 2016
For aggregates to be used for wearing surfaces – ACV shall not exceed
30%
If ACV exceeds 30% - Ten percent fines test shall be conducted.

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10% fines value test
If ACV exceeds 30% - Ten percent fines test shall be conducted
Test is conducted on sample passing 12.5 mm and retained 10 mm
Some load is applied – sample is sieved through 2.36 mm sieve. –
Percentage fines if found out. Test is repeated several times.
A Plot of load on Y axis and % fines on X axis is plotted.
Load corresponding to 10% fines is found from the plot.
The minimum load for 10% fines shall be 50 kN (Cl. 5.4.1 of IS 383 –
2016)

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Aggregate Impact Value - IS 2386(IV)
Measure of the resistance of an aggregate to sudden shock or impact
Dry sample of aggregate passing 12.5 mm and retained on 10 mm shall
be used.
Sample is placed in a cylindrical container – three layers - standard
tamping rod of 16 mm dia 45 to 60 cm long is used – 25 blows each layer.
Hammer of weight 13.5 kg to 14 kg is allowed to fall from a height of 380 
5mm. 15 blows are given to the sample.
Sample is transferred to 2.36 mm seive
Aggregate Impact Value = (B/A)*100
B – Weight of material passing through 2.36 mm sieve
A – Weight of surface dry sample

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Aggregate Impact Value
(Cl. 5.4.2 of IS 383 – 2016)

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 BULKING OF SAND
Significant in Volume batching – Volume batching is not correct
Sand has minimum volume when it is completely dry or fully saturated
When the sand has some moisture – shows higher volume
Water in the sand will add to the W/C ratio in concrete
Net W/C in concrete will increase – Workability will increase – Strength
decreases
If you weigh 100 kg of sand, which has 10% bulking – Net sand is 90 kg and
excess water is 10 kg
Concrete will not be having sufficient quantity of sand (under sanded) – Excess
quantity of water
Undersanded is not good – Excess quantity of water is not good

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BULKING OF SAND

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Determination of Bulking of Sand
Take a measuring jar (say 1 litre capacity)
Fill 500 ml of sand in the measuring jar
Slowly add water to make the sand fully saturated
Add excess amount of water and shake the jar – Allow the sand to
settle
Fully saturated sand has minimum volume (Now the sand will occupy
450 ml)
Bulking = (500 – 450)*100/500 = 10%
Amount of water and sand need to be adjusted

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Estimation of Deleterious materials & Organic materials
IS 2386 (2)
a) Determination of clay lumps,
b) Determination of clay, fine silt and fine dust
(sedimentation method),
c) Determination of light-weight pieces (coal and lignite),
d) Determination of soft particles, and
e) Estimation of organic impurities

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 Concrete Mix Proportions
Proportion of Cement : Proportion of FA : Proportion of CA: Water
cement Ratio
For Example – 1:2:4:0.4 (Nominal mix – approximate)
Designed mix – 1: 2.43 : 4.12: 0.42 (Accurate – Important works – Weight
batching only)
If the Proportion is considered by Weight – Weigh Batching – Accurate –
Mostly used in Ready Mixed Concrete (RMC)
If the Proportion is considered by Volume – Volume Batching –
Approximate – Mostly used on sites – Rural areas – Non important works
AVOID VOLUME BATCHING -

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