sieve analysis test to determine gradation (size distribution) of aggregates. o standard sieves are...
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Sieve Analysis Sieve Analysis Test Test
Sieve Analysis Test • To determine gradation (size distribution)
of aggregates.
o Standard Sieves Are : o80mm,40mm,20mm,10mm,4.75mm,2.36mm,1.18mm,600 microns, 300 microns, 150 microns, 75 microns
Aggregate Gradation IS:2386-Aggregate Gradation IS:2386-1963 Part I1963 Part I
The gradation and size test (Figure 1) is used to determine aggregate particle size distribution
► In a gradation and size analysis, a sample In a gradation and size analysis, a sample of dry aggregate of known weight is of dry aggregate of known weight is separated through a series of sieves with separated through a series of sieves with progressively smaller openings.progressively smaller openings.
► Once separated, the weight of particles Once separated, the weight of particles
retained on each sieve is measured and retained on each sieve is measured and compared to the total sample weight.compared to the total sample weight.
► Particle size distribution is then Particle size distribution is then expressed as a percent retained by expressed as a percent retained by weight on each sieve size. weight on each sieve size.
Sieves and Sieve Shaker for Coarse Aggregate
Sieve Shaker for Fine Aggregate
FM= 277/100=2.77FM= 277/100=2.77
STONE AGGREGATEDesirable Properties1.Strength2.Hardness3.Toughness4.Durability5.Shape6.Adhesion with Bitumen
AGGREGATE CRUSHING VALUE TEST
Cylinder
Machine steel, 154 mm dia.
Plunger
Machine steel
Base Plate
Machine steel
Metal Measu
re115 mm dia., 180 mm deep.
Tamping
Rod
Galvanized steel, 16 mm dia., 500 mm length, hemispherical at both ends.
TEST PROCEDURE
Sample Preparation Load Application 40 KN/min Total Load 400 KN. Crushed Material is Passed through
2.30mm sieve CALCULATIONS AND RESULTS
Mass of test specimen = M1 g Mass of material passing 2.36 mm sieve =
M2 g Aggregate Crushing Value (ACV) = 100
xM2 M1
Report the average ACV
IRC Specifications
For Surface Courses : Not more than 30%
For Base Courses : Not More than 45%
AGGREGATE IMPACT TEST Used to determine the Toughness Apparatus: Impact Machine Cylindrical Measure Machine steel, 75 mm dia., 50 mm deep. Tamping Rod Galvanized steel, 3/8" dia., 8" length Sieves of Size 12.5mm, 10mm , 2.36
Test Procedure
Sample Preparation Place the Cup into the machine Apply 15 blows by lifting the hammer of
13.5 kg to 14 kg to a height of 38 cm. Remove the material from cup and sieve
it through 2.36 mm sieve. Impact Value = M2 x100
M1Where M2= weight of Crushed
material in gmM1 = weight of Sample taken
IRC Specifications•For Surface Courses : Not more than 30%
•For Bituminous
Macadam Courses : Not More than 35%
•For WBM courses : not more than 40%
ABRASION TESTS
Used to Evaluate the Hardness Property of Aggregate.
Los Angels Abrasion Test Deval’s Abrasion Test Deval’s Attrition Test
Los Angels Abrasion Test
Hollow Drum
12.5mm thick steel plate;
70cm inner diameter 50cm inner
width
Drum Speed
30-33 RPM
IS sieves of specified sizes
Abrasive charge shall consist of a solid, steel sphere having a mass
between 390 and 445 g. with a diameter of 46.5 ± 0.5 mm.
GRADINGS FOR TEST SPECIMENSA, B, C, D, E, F and G Total Mass = 5000 ± 10 gm for A, B, C and DTotal Mass = 10,000 ± 20 gm for E, F and G.
TEST PROCEDURE Take the sample as per specifications Place it in the drum Also place the abrasive charge as per
Sp. Apply the Rotations 30-33 r.p.m. 1000 revolutions are to be given Remove the shutter and sample is
passed through the 1.70mm sieve. Abrasion Value = W2 x100
W1Where W2= weight of abraded material
retained W1 = weight of Sample taken
IRC Specifications•For CC Roads&High Bituminous Roads :
Not more than 30%
•For WBM courses : not more than 50%
DEVAL’S ABRASION TEST
SHAPE TESTS
FLAKINESS INDEX TESTELONGATION INDEX TEST
ANGULARITY NUMBER TEST
The particle shape of aggregates is determined by the percentages of flaky and elongated particles.
Flaky and elongated particles are considered undesirable as they cause weakness of the pavement.
Rounded aggregates are preferred in cement concrete pavements as the workability of concrete improves. A regular shape of particles are desirable for granular base course due to increased stability desired from better interlocking.
FLAKINESS INDEX TEST
Definition: Aggregate particles are classified as flaky when they have a thickness (smallest dimension) of less than 0.6 of their mean sieve size.
The flakiness index of an aggregate sample is found byseparating the flaky particles and expressing their mass as a percentage of the mass of the sample tested. This test is not applicable to aggregate passing 6.30 mm sieve and retained as 63.0 mm sieve.
7.3.1 ApparatusMetal thickness gauge
Test sieves, balance, trays
1 This dimension is equal to 0.6 times the mean test sieve size.
Procedure
1. The sieve sample with sieves mentioned in Table 7.1. Weigh each of the individual size fractions (w1, w2, w3, ...) retained on these sieves, other than the 63.0 mm sieve and store them in separate trays marked with their size.
2. Gauge each fraction from the respective slots in the thickness gauge weigh pieces which pass through the slots (x1, x2, x3, …. etc.).
Calculations and Results
100321
321X
WWW
xxx
Flakiness index =
Where x1, x2, ... etc. are the weight of the fractions passing from the thickness gauge.
w1, w2,…, etc. are the weight of the original sample retained as the corresponding sieves.
IRC SPECIFICATIONS
Normally should not exceed 15%
In any case it should not exceed 25%
ELONGATION INDEX TEST
Definition:Aggregate particles are classified as elongated when they have a length (greatest dimension) ofmore than 1.8 of their mean sieve size.
The elongation index is found by separating theelongated particles and expressing their mass as a percentage of the mass of sample tested.
The test is not applicable to material passing 6.30 mm sieve or retained on 50 mm sieve.
ApparatusMetal Length gauge
Test sieves, balance, trays
2 This dimension is equal to 1.8 times the mean test sieve size.
PROCEDURE
1. Sieve the sample with sieves mentioned in Table (7.2) weight each of the individual size fractions (w1, w2, w3, … etc.) retained on these sieves other than the 50.0 mm sieve.
2. Gauge each fraction as follows, select the length gauge appropriate to the single fraction under test and gauge each particle separately by hand.
Elongated particles are those whose greatest dimension prevents them from passing through the gauge.
3.Weigh each fraction which doesn’t pass through the gauge (y1, y2, …etc.).
Calculations and Results
100321
321X
WWW
yyy
Elongation index =
Where y1, y2, ... etc. are the weight of the fractions passing from the thickness gauge.
w1, w2,…, etc. are the weight of the original sample retained as the corresponding sieves.
IRC SPECIFICATIONSIRC SPECIFICATIONS
In any case it should not exceed 15%In any case it should not exceed 15%
Angularity number Angular particles possess well defined
edges and are commonly found in aggregates prepared by crushing of rocks.
Angularity or absence of rounding of particles in aggregate is a property which is of importance because it affects ease of handling a mixture of aggregate and binder.
The degree of packing of particles of single sized aggregates depends upon the shape and angularity of the aggregate.
Angularity of aggregate can be estimated from properties of voids in a sample of aggregate compacted in a particular manner.
Rounded gravel particles possess lesser
voids (mostly 33%, i.e. 67% solids, by volume) as compared to the angular particles.
Angularity number measures the percentage of voids in angular particles in excess of that in the rounded gravel particles.
Angularity number = % of solid volume in a vessel
filled with aggregate in a standard manner - 67 (i.e. % volume of solids of the rounded gravel)
The higher the angularity number, the more angular the aggregate.
The range of angularity number for practical aggregates is between 0 and 11
Unit Weight(unit mass or bulk density)
The weight of the aggregate required to fill a container of a specified unit volume.
• Volume is occupied by both the aggregates and the voids between the
aggregate particles.
• Depends on size distribution and
shape of particles and how densely the
aggregate is packed
• Loose bulk density
• Rodded or compact bulk density